Tangram
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The tangram (Template:Zh) is a dissection puzzle consisting of seven flat polygons, called tans, which are put together to form shapes. The objective is to replicate a pattern (given only an outline) generally found in a puzzle book using all seven pieces without overlap. Alternatively the tans can be used to create original minimalist designs that are either appreciated for their inherent aesthetic merits or as the basis for challenging others to replicate its outline. It is reputed to have been invented in China sometime around the late 18th century and then carried over to America and Europe by trading ships shortly after.Template:Sfnp It became very popular in Europe for a time, and then again during World War I. It is one of the most widely recognized dissection puzzles in the world and has been used for various purposes including amusement, art, and education.<ref>Template:Cite journal</ref>Template:Sfnp<ref>Template:Cite book</ref>
EtymologyEdit
The origin of the English word 'tangram' is unclear. One conjecture holds that it is a compound of the Greek element '-gram' derived from γράμμα ('written character, letter, that which is drawn') with the 'tan-' element being variously conjectured to be Chinese t'an 'to extend' or Cantonese t'ang 'Chinese'.<ref>Oxford English Dictionary, 1910, s.v.</ref> Alternatively, the word may be derivative of the archaic English 'tangram' meaning "an odd, intricately contrived thing".Template:Sfnp
In either case, the first known use of the word is believed to be found in the 1848 book Geometrical Puzzle for the Young by mathematician and future Harvard University president Thomas Hill.<ref>Template:Cite book Template:Open access</ref> Hill likely coined the term in the same work, and vigorously promoted the word in numerous articles advocating for the puzzle's use in education, and in 1864 the word received official recognition in the English language when it was included in Noah Webster's American Dictionary.Template:Sfnp
HistoryEdit
OriginsEdit
Despite its relatively recent emergence in the West, there is a much older tradition of dissection amusements in China which likely played a role in its inspiration. In particular, the modular banquet tables of the Song dynasty bear an uncanny resemblance to the playing pieces of the tangram and there were books dedicated to arranging them together to form pleasing patterns.Template:Sfnp
Several Chinese sources broadly report a well-known Song dynasty polymath Huang Bosi 黄伯思 who developed a form of entertainment for his dinner guests based on creative arrangements of six small tables called 宴几 or 燕几(feast tables or swallow tables respectively). One diagram shows these as oblong rectangles, and other reports suggest a seventh table was added later, perhaps by a later inventor.
According to Western sources, however, the tangram's historical Chinese inventor is unknown except through the pen name Yang-cho-chu-shih (Dim-witted (?) recluse, recluse = 处士). It is believed that the puzzle was originally introduced in a book titled Ch'i chi'iao t'u, which was already reported as lost in 1815 by Shan-chiao in his book New Figures of the Tangram. Nevertheless, it is generally believed that the puzzle was invented about 20 years earlier.Template:Sfnp
The prominent third-century mathematician Liu Hui made use of construction proofs in his works and some bear a striking resemblance to the subsequently developed banquet tables which in turn seem to anticipate the tangram. While there is no reason to suspect that tangrams were used in the proof of the Pythagorean theorem, as is sometimes reported, it is likely that this style of geometric reasoning went on to exert an influence on Chinese cultural life that lead directly to the puzzle.Template:Sfnp
The early years of attempting to date the Tangram were confused by the popular but fraudulently written history by famed puzzle maker Samuel Loyd in his 1908 The Eighth Book Of Tan. This work contains many whimsical features that aroused both interest and suspicion amongst contemporary scholars who attempted to verify the account. By 1910 it was clear that it was a hoax. A letter dated from this year from the Oxford Dictionary editor Sir James Murray on behalf of a number of Chinese scholars to the prominent puzzlist Henry Dudeney reads "The result has been to show that the man Tan, the god Tan, and the Book of Tan are entirely unknown to Chinese literature, history or tradition."Template:Sfnp Along with its many strange details The Eighth Book of Tan's date of creation for the puzzle of 4000 years in antiquity had to be regarded as entirely baseless and false.
Reaching the Western world (1815–1820s)Edit
The earliest extant tangram was given to the Philadelphia shipping magnate and congressman Francis Waln in 1802 but it was not until over a decade later that Western audiences, at large, would be exposed to the puzzle.Template:Sfnp In 1815, American Captain M. Donnaldson was given a pair of author Sang-Hsia-koi's books on the subject (one problem and one solution book) when his ship, Trader, docked there. They were then brought with the ship to Philadelphia in February 1816. The first tangram book to be published in America was based on the pair brought by Donnaldson.Template:Sfnp
The puzzle eventually reached England, where it became very fashionable. The craze quickly spread to other European countries. This was mostly due to a pair of British tangram books, The Fashionable Chinese Puzzle, and the accompanying solution book, Key.Template:Sfnp Soon, tangram sets were being exported in great number from China, made of various materials, from glass, to wood, to tortoise shell.Template:Sfnp
Many of these unusual and exquisite tangram sets made their way to Denmark. Danish interest in tangrams skyrocketed around 1818, when two books on the puzzle were published, to much enthusiasm.Template:Sfnp The first of these was Mandarinen (About the Chinese Game). This was written by a student at Copenhagen University, which was a non-fictional work about the history and popularity of tangrams. The second, Det nye chinesiske Gaadespil (The new Chinese Puzzle Game), consisted of 339 puzzles copied from The Eighth Book of Tan, as well as one original.Template:Sfnp
One contributing factor in the popularity of the game in Europe was that although the Catholic Church forbade many forms of recreation on the sabbath, they made no objection to puzzle games such as the tangram.Template:Sfnp
Second craze in Germany (1891–1920s)Edit
Tangrams were first introduced to the German public by industrialist Friedrich Adolf Richter around 1891.<ref name="arclab">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The sets were made out of stone or false earthenware,<ref>Template:Cite book</ref> and marketed under the name "The Anchor Puzzle".<ref name="arclab"/>
More internationally, the First World War saw a great resurgence of interest in tangrams, on the homefront and trenches of both sides. During this time, it occasionally went under the name of "The Sphinx" an alternative title for the "Anchor Puzzle" sets.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>Template:Cite book</ref>
ParadoxesEdit
In figure 1, side lengths are labelled assuming the square has unit sides.
In figure 2, overlaying the bodies shows that footless body is larger by the foot's area. The change in area is often unnoticed as √2 is close to 1.5.
A tangram paradox is a dissection fallacy: Two figures composed with the same set of pieces, one of which seems to be a proper subset of the other.<ref name="mathematica">Tangram Paradox, by Barile, Margherita, From MathWorld – A Wolfram Web Resource, created by Eric W. Weisstein.</ref> One famous paradox is that of the two monks, attributed to Henry Dudeney, which consists of two similar shapes, one with and the other missing a foot.<ref name="dudeney">Template:Cite book</ref> In reality, the area of the foot is compensated for in the second figure by a subtly larger body.
The two-monks paradox – two similar shapes but one missing a foot:
The Magic Dice Cup tangram paradox – from Sam Loyd's book The 8th Book of Tan (1903).<ref name="eighth book 1"/> Each of these cups was composed using the same seven geometric shapes. But the first cup is whole, and the others contain vacancies of different sizes. (Notice that the one on the left is slightly shorter than the other two. The one in the middle is ever-so-slightly wider than the one on the right, and the one on the left is narrower still.)<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Clipped square tangram paradox – from Loyd's book The Eighth Book of Tan (1903):<ref name="eighth book 1">Template:Cite book</ref>
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Number of configurationsEdit
Over 6500 different tangram problems have been created from 19th-century texts alone, and the current number is ever-growing.Template:Sfn Fu Traing Wang and Chuan-Chih Hsiung proved in 1942 that there are only thirteen convex tangram configurations (segments drawn between any two points on the configuration are always completely contained inside the configuration, i.e., configurations with no recesses in the outline).<ref> Template:Cite journal</ref><ref name="isbn0-486-21483-4">Template:Cite book</ref>
PiecesEdit
Choosing a unit of measurement so that the seven pieces can be assembled to form a square of side one unit and having area one square unit, the seven pieces are:<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
- 2 large right triangles (hypotenuse 1, sides Template:Sfrac, area Template:Sfrac)
- 1 medium right triangle (hypotenuse Template:Sfrac, sides Template:Sfrac, area Template:Sfrac)
- 2 small right triangles (hypotenuse Template:Sfrac, sides Template:Sfrac, area Template:Sfrac)
- 1 square (sides Template:Sfrac, area Template:Sfrac)
- 1 parallelogram (sides of Template:Sfrac and Template:Sfrac, height of Template:Sfrac, area Template:Sfrac)
Of these seven pieces, the parallelogram is unique in that it has no reflection symmetry but only rotational symmetry, and so its mirror image can be obtained only by flipping it over. Thus, it is the only piece that may need to be flipped when forming certain shapes.
See alsoEdit
- Tangram (video game)
- Egg of Columbus (tangram puzzle)
- Mathematical puzzle
- Ostomachion
- Tiling puzzle
- Attribute blocks
ReferencesEdit
- Sources
Further readingEdit
- Anno, Mitsumasa. Anno's Math Games (three volumes). New York: Philomel Books, 1987. Template:Isbn (v. 1), Template:Isbn (v. 2), Template:Isbn (v. 3).
- Botermans, Jack, et al. The World of Games: Their Origins and History, How to Play Them, and How to Make Them (translation of Wereld vol spelletjes). New York: Facts on File, 1989. Template:Isbn.
- Dudeney, H. E. Amusements in Mathematics. New York: Dover Publications, 1958.
- Gardner, Martin. "Mathematical Games—on the Fanciful History and the Creative Challenges of the Puzzle Game of Tangrams", Scientific American Aug. 1974, p. 98–103.
- Gardner, Martin. "More on Tangrams", Scientific American Sep. 1974, p. 187–191.
- Gardner, Martin. The 2nd Scientific American Book of Mathematical Puzzles and Diversions. New York: Simon & Schuster, 1961. Template:Isbn.
- Loyd, Sam. Sam Loyd's Book of Tangram Puzzles (The 8th Book of Tan Part I). Mineola, New York: Dover Publications, 1968.
- Slocum, Jerry, et al. Puzzles of Old and New: How to Make and Solve Them. De Meern, Netherlands: Plenary Publications International (Europe); Amsterdam, Netherlands: ADM International; Seattle: Distributed by University of Washington Press, 1986. Template:Isbn.