Origami

The folding of an Origami crane

Origami (折り紙, Japanese pronunciation: [oɾiɡami] or [oɾiꜜɡami], from ori meaning "folding", and kami meaning "paper" (kami changes to gami due to rendaku)) is the Japanese art of paper folding. In modern usage, the word "origami" is often used as an inclusive term for all folding practices, regardless of their culture of origin. The goal is to transform a flat square sheet of paper into a finished sculpture through folding and sculpting techniques. Modern origami practitioners generally discourage the use of cuts, glue, or markings on the paper. Origami folders often use the Japanese word kirigami to refer to designs which use cuts.

In the detailed Japanese classification, origami is divided into stylized ceremonial origami (儀礼折り紙, girei origami) and recreational origami (遊戯折り紙, yūgi origami), and only recreational origami is generally recognized as origami.^[1]^[2] In Japan, ceremonial origami is generally called "origata" (ja:折形) to distinguish it from recreational origami. The term "origata" is one of the old terms for origami.^[3]^[4]^[5]

The small number of basic origami folds can be combined in a variety of ways to make intricate designs. The best-known origami model is the Japanese paper crane. In general, these designs begin with a square sheet of paper whose sides may be of different colors, prints, or patterns. Traditional Japanese origami, which has been practiced since the Edo period (1603–1868), has often been less strict about these conventions, sometimes cutting the paper or using nonsquare shapes to start with. The principles of origami are also used in stents, packaging, and other engineering applications.^[6]^[7]

^ Cite error: The named reference kyushu1 was invoked but never defined (see the help page).
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^ 折形（おりがた）について (in Japanese). Yamane origata. May 11, 2013. Archived from the original on April 13, 2022. Retrieved November 15, 2022.
^ Cite error: The named reference kyushu2 was invoked but never defined (see the help page).
^ Merali, Zeeya (June 17, 2011), "'Origami Engineer' Flexes to Create Stronger, More Agile Materials", Science, 332 (6036): 1376–1377, Bibcode:2011Sci...332.1376M, doi:10.1126/science.332.6036.1376, PMID 21680824.
^ "See a NASA Physicist's Incredible Origami" (video). YouTube. March 16, 2017. Retrieved October 29, 2022.

[kyushu1-1] Cite error: The named reference kyushu1 was invoked but never defined (see the help page).

[nippon1-2] Cite error: The named reference nippon1 was invoked but never defined (see the help page).

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[4] 折形（おりがた）について (in Japanese). Yamane origata. May 11, 2013. Archived from the original on April 13, 2022. Retrieved November 15, 2022.

[kyushu2-5] Cite error: The named reference kyushu2 was invoked but never defined (see the help page).

[6] Merali, Zeeya (June 17, 2011), "'Origami Engineer' Flexes to Create Stronger, More Agile Materials", Science, 332 (6036): 1376–1377, Bibcode:2011Sci...332.1376M, doi:10.1126/science.332.6036.1376, PMID 21680824.

[7] "See a NASA Physicist's Incredible Origami" (video). YouTube. March 16, 2017. Retrieved October 29, 2022.

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