The answer is gravity. The Earth is thought to have formed four-and-a-half billion years ago, from a huge, rotating cloud of gas. In the newly born Earth, gravity pulls from the center. Parts at the same distance from the center are pulled with the same force, and ends up with a spherical shape.
A round shape holds the most matter. And planets and stars are made from lots and lots of that. Even though they are huge, planets and stars work to be as small as they can because of gravity. Gravity, the force that pulls matter together, pulls you and the Earth toward each other. It also pulls together all the different matter that the Earth is made from and makes the planet as small as it can be. And that shape is round. It has to do with gravity, which is a CENTRAL FORCE. It meansthat gravity pulls things together along a straight line, and the more massive one of the things is, the stronger it pulls. When the earth was forming, it was basically a big ball of dust left over from an exploded sun (a supernova). Gravity caused a lot of the matter to condense into a big fiery ball (our sun), but some of the dust was far enough away from the Sun so that the stronger forces were between planetary dust particles and not the sun. So, they swirled together into a ball. Erastothenes was a Greek Geographer from Cyrene who lived between 275-194 B.C. He was the first man to make an almost accurate estimation of the earth's circumference.Click here to see his method of calculation. Here are some experiments that you can do and proofs that will prove this earth is round. The experiments range from complicated ones that cocerns long distance phone calls to simple ones that could be done from the beach.
it is round compared to your average cube, that is
for sure! Now, my understanding of how solar systems form is pretty
inadequate; all I can tell you is what I see on "Nova." But basically, I
guess it has to do with gravity, which is a CENTRAL FORCE. What that means is
that gravity pulls things together along a straight line, and the more massive
one of the things is, the stronger it pulls. When the earth was forming, it
was basically a big ball of dust left over from an exploded sun (a supernova).
Gravity caused a lot of the matter to condense into a big fiery ball (our
sun), but some of the dust was far enough away from the Sun so that the
stronger forces were between planetary dust particles and not the sun. SO,
they swirled together into a ball. You can see something similar when you
make a painting with one of those "spin-art" machines; you put a card on the
spinner, which whirls around real fast, and then you squirt paint on the card.
The whirling causes the paint to go out away from the center (this is like the
explosion of the supernova) and droplets go out along an interesting path
until they stop, which happens when the spinning force is equal and opposite
to the force which attaches paint to the card (this is like gravity). Now, if
the force attaching paint to the card were not so strong,eventually the drops
would get bigger - "planets."
It's the gravity, of course.
Imagine Earth were liquid--consisting, say, only of water. Gravity
would of course pull that water towards the center, and if any could
flow closer to the center, it would do so.
Therefore, if such an Earth were not a sphere--if some points were
higher than the average--their water would quickly flow down. Water
would also flow into any valley deeper than the average and fill it up.
The final shape MUST be a sphere. Only then does every point on the
surface have the same distance from the center.
Gas planets like Jupiter, Saturn, Uranus and Neptune behave the same
way, since gas flows like a fluid. The Sun is gas, too, so it must be
spherical. But Earth? The Moon? Why should a planet composed of solid
rock have the same shape as one composed of water?
Because, dear friend, once you descend a few hundred miles (or
kilometers), rocks flow like a fluid, too. A rock 300 miles underground
bears the weight of a 300-mile layer of rock, and under such pressure
even solid material will gradually yield, more so because of the intense
heat there. Hence the rocky Earth is close to a sphere.
Mountains may stick up 30000 feet, but not much more, otherwise the
ground will slowly sink under their weight. Olympus Mons on Mars can
reach 80000, but the weaker gravity of Mars makes it possible. Asteroids
100 miles across may still be potato-shaped (not enough gravity to give
the outer layers enough weight), but by the time you reach 300 miles,
round is the rule.
Round ... but not always completely round. Earth bulges a little at
the equator, because rotation flings matter outwards, weakening gravity
there by a fraction of 1%. Jupiter spins faster than Earth--just under
10 hours--and bulges much more: telescope pictures of Jupiter show it
visibly fatter at the equator. And our Moon--why do you think it always
presents the same face to the Earth? Yes, it is lightly longer in that
direction, and the pull on the part sticking out towards Earth keeps it
aligned that way.
The notion of a flat Earth refers to the idea that the inhabited surface of Earth is flat, rather than a curved spherical Earth. This article focuses on the views about the shape of the earth during the history of Europe, on historical evidence for and against the modern belief that people in Medieval Europe believed that the Earth was flat, on modern believers in a Flat Earth, and on the use of the idea of a Flat Earth in literature and popular culture.
In early Classical Antiquity, the Earth was generally believed to be flat. Greek philosophers from that time period were prone to form conclusions similar to those of Anaximander, who believed the Earth to be a short cylinder with a flat, circular top.[1] It is conjectured that the first person to have advocated a spherical shape of the Earth was Pythagoras (6th century BC), but this idea is not supported by the fact that most presocratic Pythagoreans considered the world to be flat.[2] Eratosthenes, however, had already determined that the earth was a sphere and calculated its rough circumference by the third century B.C.
By the time of Pliny the Elder in the 1st century, the Earth's spherical shape was generally acknowledged among the learned in the western world. Ptolemy derived his maps from a curved globe and developed the system of latitude, longitude, and climes. His writings remained the basis of European astronomy throughout the Middle Ages, although Late Antiquity and the Early Middle Ages (ca. 3rd to 7th centuries) saw occasional arguments in favor of a flat Earth.
The modern misconception that people of the Middle Ages believed that the Earth was flat first entered the popular imagination in the nineteenth century, thanks largely to the publication of Washington Irving's fantasy The Life and Voyages of Christopher Columbus in 1828.
Antiquity
Belief in a flat Earth is found in mankind's oldest writings. In early Mesopotamian thought, the world was portrayed as a flat disk floating in the ocean, and this forms the premise for early Greek maps like those of Anaximander and Hecataeus. Many theologians and biblical researchers maintain that writers of the Bible had a Babylonian world view according to which Earth is flat and stands on some sort of pillars. According to Dictionary of the Bible written by W. Browning "Hebrew cosmology pictured a flat earth, over which was a dome-shaped firmament, supported above the earth by mountains, and surrounded by waters. Holes or sluices (windows, Gen 7.11) allowed the water to fall as rain. The firmament was the heaven in which God set the sun (Ps 19.4) and the stars (Gen 1.14)" Other theologians counter that the book of Isaiah alludes to the earth being circular or spherical (Isa 40.22).
By classical times an alternative idea, that Earth was spherical, had appeared. This was espoused by Pythagoras, apparently on aesthetic grounds, as he also held all the celestial bodies were spherical. Aristotle provided observational evidence for the spherical Earth,[5] noting that travelers going south see southern constellations rise higher above the horizon. This is only possible if their horizon is at an angle to northerners' horizon. Thus the Earth's surface cannot be flat.[6] Also, the border of the shadow of Earth on the Moon during the partial phase of a lunar eclipse is always circular, no matter how high the Moon is over the horizon. Only a sphere casts a circular shadow in every direction, whereas a circular disk casts an elliptical shadow in most directions.
The Earth's circumference was first determined around 240 BC by Eratosthenes. Eratosthenes knew that in Syene (now Aswan), in Egypt, the Sun was directly overhead at the summer solstice, while he estimated that a shadow cast by the Sun at Alexandria was 1/50th of a circle. He estimated the distance from Syene to Alexandria as 5,000 stades, and estimated the Earth's circumference was 250,000 stades and a degree was 700 stades (implying a circumference of 252,000 stades).Eratosthenes used rough estimates and round numbers, but depending on the length of the stadion, his result is within a margin of between 2% and 20% of the actual circumference, 40,008 kilometres. Note that Eratosthenes could only measure the circumference of the Earth by assuming that the distance to the Sun is so great that the rays of sunlight are essentially parallel. A similar measurement, reported in a Chinese mathematical treatise, the Zhoubi suanjing (1st c. BC), was used to measure the distance to the Sun– albeit by assuming that the Earth was flat.
Sketch map from a 12th century manuscript of Macrobius's commentary on Dream of Scipio, showing the inhabited northern region separated from the antipodes by an imagined ocean spanning the equator.During this period, Earth was generally thought of as divided into zones of climate, with a frigid clime at the poles, a deadly torrid clime near the equator, and a mild and habitable temperate clime between the two. It was thought that the different temperatures of these zones were related with proximity to the sun. It was erroneously believed that no one could cross the torrid clime and reach the unknown lands on the other half of the globe. At the time, these imagined lands as well as their inhabitants were both called antipodes.
Lucretius (1st. c. BC) opposed the concept of a spherical Earth, because he considered the idea of antipodes absurd. But by the 1st century AD, Pliny the Elder was in a position to claim that everyone agrees on the spherical shape of Earth (Natural History, 2.64), although there continued to be disputes regarding the nature of the antipodes, and how it is possible to keep the ocean in a curved shape. Interestingly, Pliny as an "intermediate" theory considers also the possibility of an imperfect sphere, "shaped like a pinecone". (Natural History, 2.65)
In the Second century the Alexandrian astronomer Ptolemy advanced many arguments for the sphericity of the Earth. Among them was the observation that when sailing towards mountains, they seem to rise from the sea, indicating that they were hidden by the curved surface of the sea.
In late antiquity such widely read encyclopedists as Macrobius (4th c.) and Martianus Capella (5th c.) discussed the circumference of the sphere of the Earth, its central position in the universe, the difference of the seasons in northern and southern hemispheres, and many other geographical details.In his commentary on Cicero's Dream of Scipio, Macrobius described the Earth as a globe of insignificant size in comparison to the remainder of the cosmos.
From Late Antiquity, and from the beginnings of Christian theology, knowledge of the sphericity of the Earth had become widespread.[14] As in secular culture a small minority contended with the flatness of the Earth. There was also some debate concerning the possibility of the inhabitants of the antipodes: people imagined as separated by an impassable torrid clime were difficult to reconcile with the Christian view of a unified human race descended from one couple and redeemed by a single Christ.
Saint Augustine (354–430) argued against assuming people inhabited the antipodes:
But as to the fable that there are Antipodes, that is to say, men on the opposite side of the earth, where the sun rises when it sets to us, men who walk with their feet opposite ours, that is on no ground credible. And, indeed, it is not affirmed that this has been learned by historical knowledge, but by scientific conjecture, on the ground that the earth is suspended within the concavity of the sky, and that it has as much room on the one side of it as on the other: hence they say that the part which is beneath must also be inhabited. But they do not remark that, although it be supposed or scientifically demonstrated that the world is of a round and spherical form, yet it does not follow that the other side of the earth is bare of water; nor even, though it be bare, does it immediately follow that it is peopled.[15]
Since these people would have to be descended from Adam, they would have had to travel to the other side of the Earth at some point; Augustine continues:
[I]t is too absurd to say, that some men might have taken ship and traversed the whole wide ocean, and crossed from this side of the world to the other, and that thus even the inhabitants of that distant region are descended from that one first man.
Scholars of Augustine's work have traditionally assumed that he would have shared the common view of his educated contemporaries that the earth is spherical. That assumption has recently been challenged, however.[16][17]
A few Christian authors directly opposed the round Earth:
Cosmas Indicopleustes' world picture - flat earth in a Tabernacle.Lactantius (245–325), after his conversion to Christianity became a trenchant critic of all pagan philosophy. In Book III of The Divine Institutes[18] he ridicules the notion that there could be inhabitants of the antipodes "whose footsteps are higher than their heads". After presenting some arguments which he claims advocates for a spherical heaven and earth had advanced to support their views, he writes:
But if you inquire from those who defend these marvellous fictions, why all things do not fall into that lower part of the heaven, they reply that such is the nature of things, that heavy bodies are borne to the middle, and that they are all joined together towards the middle, as we see spokes in a wheel; but that the bodies which are light, as mist, smoke, and fire, are borne away from the middle, so as to seek the heaven. I am at a loss what to say respecting those who, when they have once erred, consistently persevere in their folly, and defend one vain thing by another;
In his Homilies Concerning the Statutes[19] St.John Chrysostom (344–408) explicitly espoused the idea, based on his reading of Scripture, that the Earth floated on the waters gathered below the firmament, and St. Athanasius (c.293–373) expressed similar views in Against the Heathen[20].
Diodorus of Tarsus (d. 394) also argued for a flat Earth based on scriptures; however, Diodorus' opinion on the matter is known to us only by a criticism of it by Photius.[21]
Severian, Bishop of Gabala (d. 408), wrote: "The earth is flat and the sun does not pass under it in the night, but travels through the northern parts as if hidden by a wall".[22]
The Egyptian monk Cosmas Indicopleustes (547) in his Topographia Christiana, where the Covenant Ark was meant to represent the whole universe, argued on theological grounds that the Earth was flat, a parallelogram enclosed by four oceans. At least one early Christian writer, Basil of Caesarea (329–379), believed the matter to be theologically irrelevant.[23]
Different historians have maintained that these advocates of the flat Earth were either influential (a view typified by Andrew Dickson White) or relatively unimportant (typified by Jeffrey Burton Russell[24]) in the later Middle Ages. The scarcity of references to their beliefs in later medieval writings convinces most of today's historians that their influence was slight.
The Middle Ages
[edit] Early Middle Ages
9th century Macrobian cosmic diagram showing the sphere of the Earth at the center, (globus terrae).
12th century T-O map representing the inhabitated world as described by Isidore of Seville in his Etymologiae. (chapter 14, de terra et partibus).With the end of Roman civilization, Western Europe entered the Middle Ages with great difficulties that affected the continent's intellectual production. Most scientific treatises of classical antiquity (in Greek) were unavailable, leaving only simplified summaries and compilations. Still, the dominant textbooks of the Early Middle Ages supported the sphericity of the Earth. For example: many early medieval manuscripts of Macrobius include maps of the Earth, including the antipodes, zonal maps showing the Ptolemaic climates derived from the concept of a spherical Earth and a diagram showing the Earth (labeled as globus terrae, the sphere of the Earth) at the center of the hierarchically ordered planetary spheres.[25] Images of some of these features can be found in Dream of Scipio.
Europe's view of the shape of the Earth in Late Antiquity and the Early Middle Ages may be best expressed by the writings of early Christian scholars:
Boethius (c. 480 – 524), who also wrote a theological treatise On the Trinity, repeated the Macrobian model of the Earth as an insignificant point in the center of a spherical cosmos in his influential, and widely translated, Consolation of Philosophy.[26]
Bishop Isidore of Seville (560 – 636) taught in his widely read encyclopedia, the Etymologies, that the Earth was round. His meaning was ambiguous and some writers think he referred to a disc-shaped Earth; his other writings make it clear, however, that he considered the Earth to be globular.[27] He also admitted the possibility of people dwelling at the antipodes, considering them as legendary[28] and noting that there was no evidence for their existence.[29] Isidore's disc-shaped analogy continued to be used through the Middle Ages by authors clearly favouring a spherical Earth, e.g. the 9th century bishop Rabanus Maurus who compared the habitable part of the northern hemisphere (Aristotle's northern temperate clime) with a wheel, imagined as a slice of the whole sphere.
The monk Bede (c.672 – 735) wrote in his influential treatise on computus, The Reckoning of Time, that the Earth was round, explaining the unequal length of daylight from "the roundness of the Earth, for not without reason is it called 'the orb of the world' on the pages of Holy Scripture and of ordinary literature. It is, in fact, set like a sphere in the middle of the whole universe." (De temporum ratione, 32). The large number of surviving manuscripts of The Reckoning of Time, copied to meet the Carolingian requirement that all priests should study the computus, indicates that many, if not most, priests were exposed to the idea of the sphericity of the Earth.[30] Ælfric of Eynsham paraphrased Bede into Old English, saying "Now the Earth's roundness and the Sun's orbit constitute the obstacle to the day's being equally long in every land."[31]
Bishop Vergilius of Salzburg (c.700 – 784) is sometimes cited as having been persecuted for teaching "a perverse and sinful doctrine ... against God and his own soul" regarding the sphericity of the earth. Pope Zachary decided that "if it shall be clearly established that he professes belief in another world and other people existing beneath the earth, or in [another] sun and moon there, thou art to hold a council, and deprive him of his sacerdotal rank, and expel him from the church."[32] The issue involved was not the sphericity of the Earth itself, but whether people living in the antipodes were not descended from Adam and hence were not in need of redemption. Vergilius succeeded in freeing himself from that charge; he later became a bishop and was canonised in the thirteenth century.[33]
A non-literary but graphic indication that people in the Middle Ages believed that the Earth was a sphere, is the use of the orb (globus cruciger) in the regalia of many kingdoms and of the Holy Roman Empire. It is attested from the time of the Christian late-Roman emperor Theodosius II (423) throughout the Middle Ages; the Reichsapfel was used in 1191 at the coronation of emperor Henry VI.
A recent study of medieval concepts of the sphericity of the Earth noted that "since the eighth century, no cosmographer worthy of note has called into question the sphericity of the Earth."[34] Of course it was probably not the few noted intellectuals who defined public opinion. It is difficult to tell what the wider population may have thought of the shape of the Earth – if they considered the question at all. It may have been as irrelevant to them as the Heisenberg uncertainty principle is to most of our contemporaries.
Later Middle Ages
Picture from a 1550 edition of: "On the Sphere of the World". The most influential astronomy textbook of the 13th century.By the 11th century, Europe had learned of Islamic astronomy. Around 1070 started the Renaissance of the 12th century, featuring an intellectual revitalization of Europe with strong philosophical and scientific roots, and increased appetite for the study of nature. By then, abundant records suggest that any doubts that Europeans may have had in earlier times in regard to the spherical shape of the Earth were generally eliminated.
Hermannus Contractus (1013–1054) was among the earliest Christian scholars to estimate the circumference of Earth with Eratosthenes' method. Thomas Aquinas (1225–1274), the most important and widely taught theologian of the Middle Ages, believed in a spherical Earth; and he even took for granted his readers also knew the Earth is round.[35] Lectures in the medieval universities commonly advanced evidence in favor of the idea that the Earth was a sphere.[36] Also, "On the Sphere of the World", the most influential astronomy textbook of the 13th century and required reading by students in all Western European universities, described the world as a sphere.
The shape of the Earth was not only discussed in scholarly works written in Latin; it was also treated in works written in vernacular languages or dialects and intended for wider audiences. The Norwegian book Konungs Skuggsjá, from around 1250, states clearly that the Earth is round - and that it is night on the other side of the Earth when it is daytime in Norway. The author also discusses the existence of antipodes - and he notes that they (if they exist) will see the Sun in the north of the middle of the day, and that they will have opposite seasons of the people living in the Northern Hemisphere.
Artistic representation of a spherical Earth, (c.1400).Dante's Divine Comedy, the last great work of literature of the Middle Ages, written in Italian, portrays Earth as a sphere. Also, the Elucidarium of Honorius Augustodunensis (c. 1120), an important manual for the instruction of lesser clergy which was translated into Middle English, Old French, Middle High German, Old Russian, Middle Dutch, Old Norse, Icelandic, Spanish, and several Italian dialects, explicitly refers to a spherical Earth. Likewise, the fact that Bertold von Regensburg (mid-13th century) used the spherical Earth as a sermonic illustration shows that he could assume this knowledge among his congregation. The sermon was held in the vernacular German, and thus was not intended for a learned audience.
Reinhard Krüger, a professor for Romance literature at the University of Stuttgart (Germany), has discovered more than 100 medieval Latin and vernacular writers from the late antiquity to the 15th century who were all convinced that the earth was round like a ball. However, as late as 1400s, the Spanish theologian Tostatus still disputed the existence of any inhabitants at the antipodes.[37] From a European perspective, Portuguese exploration of Africa and Asia and Spanish explorations in the Americas in the 15th century and finally Ferdinand Magellan's circumnavigation of the earth brought the experimental proofs for the global shape of the earth.
Medieval Muslim World
At some time in the 9th century, with scholars like Al-Battani, the Muslim World was leading in astronomical knowledge, and the sphericity of the Earth was consequently a well known fact. Around 830 CE, Caliph al-Ma'mun commissioned a group of astronomers to measure the distance from Tadmur (Palmyra) to al-Raqqah, in modern Syria. They found the cities to be separated by one degree of latitude and the distance between them to be 66 2/3 miles and thus calculated the Earth's circumference to be 24,000 miles.[38]
Ibn Taymiya (died 1328 CE), said: "Celestial bodies are round - as it is the statement of astronomers and mathematicians - it is [likewise] the statement of the scholars of the Muslims; as Abul-Hasan ibn al-Manaadi, Abu Muhammad Ibn Hazm, Abul-Faraj Ibn Al-Jawzi and others have quoted: that the Muslim scholars are in agreement (that all celestial bodies are round). Indeed Allah has said: And He (i.e., Allah) it is Who created the night and the day, the sun and the moon. They float, each in a Falak. Ibn Abbas says: A Falaka like that of a spinning wheel. The word 'Falak' (in the Arabic language) means "that which is round." [39]
Many Muslim scholars declared a mutual agreement (Ijma) that celestial bodies are round. Some of them are: Ibn Hazm (d. 1069), Ibn al-Jawzi (d. 1200), and Ibn Taymiya (d. 1328). The later belief of Muslim scholars, like Suyuti (d. 1505) that the earth is flat represents a deviation from this earlier opinion .[40]
The Muslim scholars who held to the round earth theory used it in an impeccably Islamic manner, to calculate the distance and direction from any given point on the earth and Mecca. This determined the Qibla, or Muslim direction of prayer. Muslim mathematicians developed spherical trigonometry which was used in these calculations.[41] Ibn Khaldun, in his famous Muqaddimah, clearly says the world is spherical.
There is also a verse in the Quran [79:30] which some modern English translations give as "He made the earth egg-shaped"[42] which suggests that the Earth was not believed to be flat. Most translations ("And after that He spread the earth") suggest that this verse can be interpreted to support the flat Earth theory.
China and the Far East
In ancient China, the prevailing belief was that the earth was flat and square, while the Heavens were round,[43] an assumption which remained dominant until the introduction of European astronomy in the 17th century.[44] [45] In the Han Dynasty (202 BC-220 AD) text of the Da Dai Li Ji (大戴禮記) (Records of Ritual Matters by Dai Senior), it quotes the earlier Zeng Shen (505 BC-436 BC) replying to a question of Shanchu Li, admitting that it was hard to conceptualize the orthodox Chinese view of the four corners of the earth and how they could be properly covered.[43] According to the historian Needham, Zhang Heng (78-139 AD) theorized that the universe was in the oval shape of a hen's egg, while the earth itself was like the curved yolk within (in a geocentric model of thinking similar to Europe before Galileo).[43] However, the English sinologist Cullen objects that
In a passage of [Zhang Heng's] cosmogony not translated by Needham, Chang himself says: "Heaven takes its body from the Yang, so it is round and in motion. Earth takes its body from the Yin, so it is flat and quiescent". The point of the egg analogy is simply to stress that the earth is completely enclosed by heaven, rather than merely covered from above as the kai t'ien describes. Chinese astronomers, many of them brilliant men by any standards, continued to think in flat-earth terms until the seventeenth century; this surprising fact might be the starting-point for a re-examination of the apparent facility with which the idea of a spherical earth found acceptance in fifth-century B.C. Greece.[46]
Yu Xi (c. 330 AD) influenced many Chinese thinkers afterwards when he expressed his own criticisms about the square and flat earth, while Li Ye wrote of similar ideas, arguing that the movements of the round heaven would be hindered by a square earth.[43] Li Ye argued that it was spherical like the heavens, only much smaller, a belief that was shared by the followers of the Hun Tian theory.[43]
The only Chinese thinker coming close to developing the idea of a spherical earth might be Chiang Chi (4th-5th century) with his hypothesis of the curvilinear propagation of light along the celestial sphere: "Here, if at all, we might have expected to find some reference to the sphericity of the earth, but, as already noted, Chinese astronomy shows no trace of this idea."[47]
Shortly after the collapse of the Ming Dynasty, the Ge Chi Cao treatise of Xiong Ming-yu was written (1648 AD), and showed a printed picture of the earth as a spherical globe, with the text stating that "The Round Earth certainly has no Square Corners".[48] The text also pointed out that sailing ships could return to their port of origin after circumnavigating the waters of the earth.[48] Xiong Ming-yu, in order to persuade the elite class of his time, harkened back to ideas of the Hun Tian theorists to defend his ideas, with the earth 'as round as a crossbow bullet' ('yuan ru dan wan').[48]
However, the influence of the map is distinctly Western, as traditional maps of Chinese cartography held the graduation of the sphere at 365.25 degrees, while the Western graduation was of 360 degrees. Also of interest to note is on one side of the world, there is seen towering Chinese pagodas, while on the opposite side (upside-down) there were European cathedrals.[48] Western influence of geographical knowledge was used by Xiong to enforce what he believed had already been argued by earlier Chinese astronomers, something which the French sinologist Jean-Claude Martzloff regards as a retrospective interpretation:
European astronomy was so much judged worth consideration that numerous [Chinese] authors developed the idea that the Chinese of antiquity had anticipated most of the novelties presented by the missionaries as European discoveries, for example, the rotundity of the earth and the “heavenly spherical star carrier model.” Making skillful use of philology, these authors cleverly reinterpreted the greatest technical and literary works of Chinese antiquity. From this sprang a new science wholly dedicated to the demonstration of the Chinese origin of astronomy and more generally of all European science and technology.[44]
Modern times
The common misconception that people before the age of exploration believed that Earth was flat entered the popular imagination after Washington Irving's publication of The Life and Voyages of Christopher Columbus in 1828. In the United States, this belief persists in the popular imagination, and is even repeated in some widely read textbooks. Previous editions of Thomas Bailey's The American Pageant stated that "The superstitious sailors ... grew increasingly mutinous...because they were fearful of sailing over the edge of the world"; however, no such historical account is known.[49] Actually, sailors were probably among the first to know of the curvature of Earth from daily observations — seeing how shore landscape features (or masts of other ships) gradually descend/ascend near the horizon.
The Flammarion woodcut. Flammarion's caption translates to "A medieval missionary tells that he has found the point where heaven and Earth meet..."During the 19th century, the Romantic conception of a European "Dark Age" gave much more prominence to the Flat Earth model than it ever possessed historically.
The widely circulated woodcut of a man poking his head through the firmament of a flat Earth to view the mechanics of the spheres, executed in the style of the 16th century cannot be traced to an earlier source than Camille Flammarion's L'Atmosphère: Météorologie Populaire (Paris, 1888, p. 163) [50]. The woodcut illustrates the statement in the text that a medieval missionary claimed that "he reached the horizon where the Earth and the heavens met", an anecdote that may be traced back to Voltaire, but not to any known medieval source. In its original form, the woodcut included a decorative border that places it in the 19th century; in later publications, some claiming that the woodcut did, in fact, date to the 16th century, the border was removed. Flammarion, according to anecdotal evidence, had commissioned the woodcut himself. In any case, no source of the image earlier than Flammarion's book is known.
In Inventing the Flat Earth: Columbus and Modern Historians, Jeffrey Russell (professor of history at University of California, Santa Barbara) claims that the Flat Earth theory is a fable used to impugn pre-modern civilization, especially that of the Middle Ages in Europe. Today essentially all professional medievalists agree with Russell that the "medieval flat Earth" is a nineteenth-century fabrication, and that the few verifiable "flat Earthers" were the exception
Transvaal perspective
In 1898 during his solo circumnavigation of the world Joshua Slocum encountered such a group in the Transvaal Republic. Three Boers, one of them a clergyman, presented Slocum with a pamphlet in which they set out to prove that the world was flat. President Kruger advanced the same view, telling him "you don't mean [you sailed] around the world; it is impossible! You mean in the world!"[51]
The Flat Earth Society
Main article: Flat Earth Society
The last known group of Flat Earth proponents, the Flat Earth Society, kept the concept alive and at one time claimed a few thousand followers. The society declined in the 1990s following a fire at its headquarters in California and the death of its last president, Charles K. Johnson, in 2001.[52] In 2004, a new Flat Earth Society (not directly connected to Charles K. Johnson's) was founded and currently maintains the Flat Earth Society website and forum.
William Carpenter (1830-1896) maintained that "There are rivers that flow for hundreds of miles towards the level of the sea without falling more than a few feet — notably, the Nile, which, in a thousand miles, falls but a foot. A level expanse of this extent is quite incompatible with the idea of the Earth's 'convexity.'"[53] Carpenter also presented aeronautic testimony that even at the great observable heights no curvature of the earth is observed, and fits with the idea of a flat-earth, since it is the nature of level surfaces to rise to a level with the human eye.
English scientist Samuel Rowbotham (1816-1885), writing under the pseudonym "Parallax," published results of many experiments which tested the curvatures of water over lakes. He also produced studies which purported to show the effects of ships disappearing into the horizon can be explained by the laws of perspective in relation to the human eye.[54]
Flat-Earth president Charles K. Johnson, who spent years examining the studies of flat and round earth theories, produced supposed evidence of a conspiracy against flat-earth: "The idea of a spinning globe is only a conspiracy of error that Moses, Columbus, and FDR all fought..." His article was published in Science Digest, 1980, and has since achieved much controversy. The journal, Science Digest, goes on to state, "If it is a sphere, the surface of a large body of water must be curved. The Johnsons have checked the surfaces of Lake Tahoe and the Salton Sea (a shallow salt lake in southern California near the Mexican border) without detecting any curvature."