Talk:Origami

This is the talk page for discussing improvements to the Origami article. This is not a forum for general discussion of the article's subject.

Put new text under old text. Click here to start a new topic. New to Wikipedia? Welcome! Learn to edit; get help. Assume good faith Be polite and avoid personal attacks Be welcoming to newcomers Seek dispute resolution if needed Article policies Neutral point of view No original research Verifiability

Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL

Archives: 1Auto-archiving period: 90 days

This  level-4 vital article is rated C-class on Wikipedia's content assessment scale. It is of interest to the following WikiProjects:

Visual arts This article is within the scope of WikiProject Visual arts, a collaborative effort to improve the coverage of visual arts on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.Visual artsWikipedia:WikiProject Visual artsTemplate:WikiProject Visual artsvisual arts articles Craft This article is within the scope of WikiProject Craft, a collaborative effort to improve the coverage of craft on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.CraftWikipedia:WikiProject CraftTemplate:WikiProject CraftCraft articles ??? This article has not yet received a rating on the importance scale. Japan: Culture Top‑importance This article is within the scope of WikiProject Japan, a collaborative effort to improve the coverage of Japan-related articles on Wikipedia. If you would like to participate, please visit the project page, where you can join the project, participate in relevant discussions, and see lists of open tasks. Current time in Japan: 08:52, April 24, 2024 (JST, Reiwa 6) (Refresh)JapanWikipedia:WikiProject JapanTemplate:WikiProject JapanJapan-related articles Top This article has been rated as Top-importance on the project's importance scale. This article is supported by the Culture task force. WikiProject Japan to do list: edit history watch purge Peer review: Kako River (Japan) A-class review: None Featured content candidates –  Articles: None Pictures: None Lists: None Good article nominations: Pure Japanese, Vinland Saga (TV series), Japanese destroyer Ume (1944), Mai Fujisawa, Godzilla Minus One Add requested images to articles that need them. Pages for Deletion: Participate in Japan-related deletion discussions. Improve and expand Japan-related stubs. Create some requested articles. Help translate an article from the Japanese Wikipedia into English. Assess unassessed articles

Daily pageviews of this article A graph should have been displayed here but graphs are temporarily disabled. Until they are enabled again, visit the interactive graph at pageviews.wmcloud.org

Archives

1

This page has archives. Sections older than 90 days may be automatically archived by Lowercase sigmabot III.

Link 24 on this page: https://mitani.cs.tsukuba.ac.jp/pukiwiki-oripa/index.php?ORIPA%3B%20Origami%20Pattern%20Editor for the oripa software utility returns a 404 error. I found this github page: https://github.com/oripa/oripa which links to this: https://mitani.cs.tsukuba.ac.jp/oripa/ as the current main website for the project. I do not currently qualify to edit the article. Can someone who does edit it?

Origami in Space Science: Due to its ability to aid with the challenge of fitting massive constructions into constrained spaces, origami has proven to be a useful tool in space exploration. Currently, it is expensive to launch a satellite or other spacecraft into space, and the bigger the structure, the more expensive it is. This issue is resolved by origami, which enables massive constructions to be folded and condensed for easier and more affordable transportation NASA’s solar sail, a remarkably small, light, and reflecting sheet that uses solar radiation to drive spacecraft across space, is one illustration of the usage of origami in space science. The sail must be packed tightly and compactly for flight, and it must later be spread in space. Here's where origami comes in since it offers a technique to compactly pack the solar sail and then release it in a controlled fashion. The usage of this technology for next space missions is being explored by NASA after successful testing in space. The creation of foldable space habitats is another example of origami being used in space science. These habitats may be transported in a compact shape, enlarged, and put together in space to give astronauts a place to live and work. These constructions may be folded and packed compactly, which makes transportation simpler and more affordable. Origami in Medical Science: Also, there are uses for origami in the field of medicine. Medical device design is one area where origami is being used. An origami-inspired stent, for instance, has been created by a research team at Brigham and Women's Hospital in Boston. It can be folded and then expanded to fit inside blood channels. This technology offers a minimally invasive alternative to surgery, which has the potential to transform the way cardiovascular disease is treated. Drug delivery devices are also designed using origami. An origami-inspired medication delivery device has been created by researchers at the University of North Carolina at Chapel Hill. It can be folded up small for transportation and then extended inside the body to release pharmaceuticals at a specified place. This technology has the potential to lessen side effects and increase drug delivery effectiveness. Origami in Engineering: Engineering has also benefited from the use of origami. Buildings, bridges, and other structures may be designed in a completely new way thanks to the work of engineers who are using the controlled folding and unfolding of origami to create their designs. For instance, an engineering team at Harvard University created a robotic arm that can be folded and unfurled like an accordion. This innovation may improve the range of motion and flexibility of robotic arms. The design of airbags is another area of engineering where origami is used. By folding them securely and compactly, airbags can be made smaller and lighter while still providing the necessary protection. In the end Origami is a useful and flexible craft that has applications in many scientific disciplines, including engineering, medicine, and space research. It has become a popular choice for creating structures that can be compacted and then deployed in a controlled way because of its ability to turn this double sheet into complex three-dimensional structures. Technologies influenced by origami have the ability to completely change how we design and construct. This article's goal is to show the many and creative ways that origami has been used in science, as well as how it has the possibility of completely change the way that we create structures, tools, and systems.

Origami in Space Science: Due to its ability to aid with the challenge of fitting massive constructions into constrained spaces, origami has proven to be a useful tool in space exploration. Currently, it is expensive to launch a satellite or other spacecraft into space, and the bigger the structure, the more expensive it is. This issue is resolved by origami, which enables massive constructions to be folded and condensed for easier and more affordable transportation NASA’s solar sail, a remarkably small, light, and reflecting sheet that uses solar radiation to drive spacecraft across space, is one illustration of the usage of origami in space science. The sail must be packed tightly and compactly for flight, and it must later be spread in space. Here's where origami comes in since it offers a technique to compactly pack the solar sail and then release it in a controlled fashion. The usage of this technology for next space missions is being explored by NASA after successful testing in space. The creation of foldable space habitats is another example of origami being used in space science. These habitats may be transported in a compact shape, enlarged, and put together in space to give astronauts a place to live and work. These constructions may be folded and packed compactly, which makes transportation simpler and more affordable. Origami in Medical Science: Also, there are uses for origami in the field of medicine. Medical device design is one area where origami is being used. An origami-inspired stent, for instance, has been created by a research team at Brigham and Women's Hospital in Boston. It can be folded and then expanded to fit inside blood channels. This technology offers a minimally invasive alternative to surgery, which has the potential to transform the way cardiovascular disease is treated. Drug delivery devices are also designed using origami. An origami-inspired medication delivery device has been created by researchers at the University of North Carolina at Chapel Hill. It can be folded up small for transportation and then extended inside the body to release pharmaceuticals at a specified place. This technology has the potential to lessen side effects and increase drug delivery effectiveness.

Origami in Engineering: Engineering has also benefited from the use of origami. Buildings, bridges, and other structures may be designed in a completely new way thanks to the work of engineers who are using the controlled folding and unfolding of origami to create their designs. For instance, an engineering team at Harvard University created a robotic arm that can be folded and unfurled like an accordion. This innovation may improve the range of motion and flexibility of robotic arms. The design of airbags is another area of engineering where origami is used. By folding them securely and compactly, airbags can be made smaller and lighter while still providing the necessary protection. In the end Origami is a useful and flexible craft that has applications in many scientific disciplines, including engineering, medicine, and space research. It has become a popular choice for creating structures that can be compacted and then deployed in a controlled way because of its ability to turn this double sheet into complex three-dimensional structures. Technologies influenced by origami have the ability to completely change how we design and construct. This article's goal is to show the many and creative ways that origami has been used in science, as well as how it has the possibility of completely change the way that we create structures, tools, and systems.

^[1]

[1]2^N multiple tetrahedral family that can be folded on a single rectangle sheet Using a sheet of √1:√2 paper such as A4, you can fold a tetrahedron with four identical √3:√4 isosceles triangular faces into multiple pieces that are multiples of 2^N without cutting. Each of these tetrahedrons has four triangular paper faces, which do not overlap. That is, there are four times as many triangular faces as there are tetrahedra. In the case of a single sheet, groups of 2, 4, 8, and 16 tetrahedra of the same size are folded in various strange ways. Also, if you follow a certain rule (pattern), you can fold an infinite number of 2^N tetrahedra. 183.177.128.238 (talk) 05:20, 29 November 2023 (UTC) 183.177.128.238 (talk) 05:32, 29 November 2023 (UTC)[reply]

في اي عام تصنع من صنعه 185.255.44.181 (talk) 11:07, 6 December 2023 (UTC)[reply]

it mentions European traditions, but provides no source or further information. 64.110.254.75 (talk) 15:40, 1 January 2024 (UTC)[reply]

This edit request has been answered. Set the |answered= or |ans= parameter to no to reactivate your request.

In the section on Tessellation, Alex Bateman's name is not linked to his article: https://en.wikipedia.org/wiki/Alex_Bateman Biroclouds (talk) 16:52, 15 February 2024 (UTC)[reply]

 Done Shadow311 (talk) 17:03, 15 February 2024 (UTC)[reply]

In season 1 episode 2 of the Netflix show Black Mirror, "Bing goes with Abi to the audition and she gives him an origami penguin." This simple gift is a powerful symbol - of creating something valuable and special to the character out of a piece of trash - in the story and I feel like this should be in the "in pop culture" section.

https://en.m.wikipedia.org/wiki/Fifteen_Million_Merits Jessefloria (talk) 00:38, 8 April 2024 (UTC)[reply]