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Geometric Folding Algorithms: Linkages, Origami, Polyhedra

by Erik D. Demaine, Joseph O'Rourke
Compare to estimated retail price: RM323.00 MYR  

The item you've got your eye on is secondhand. You probably already know that, but just in case!

The estimated retail price shown next to any listed item represents the first-hand prices we've seen elsewhere, or the estimated original retail price of a comparable item of the same quality, construction and material offered elsewhere in new condition.

Geometric Folding Algorithms: Linkages, Origami, Polyhedra
Geometric Folding Algorithms: Linkages, Origami, Polyhedra

Where math, paper, and motion brilliantly collide

This is a dream read if you love seeing elegant mathematics turn into something tactile and surprising. It takes origami, linkages, and polyhedra and treats them like deep puzzles, full of clever proofs, visual beauty, and big ideas with real-world echoes in robotics and beyond. Readers who enjoy books that feel both rigorous and wondrous will likely find themselves happily falling down its many folded rabbit holes.

Note: While we do our best to ensure the accuracy of cover images, ISBNs may at times be reused for different editions of the same title which may hence appear as a different cover.

Geometric Folding Algorithms: Linkages, Origami, Polyhedra

by Erik D. Demaine, Joseph O'Rourke
Compare to estimated retail price: RM323.00 MYR  

The item you've got your eye on is secondhand. You probably already know that, but just in case!

The estimated retail price shown next to any listed item represents the first-hand prices we've seen elsewhere, or the estimated original retail price of a comparable item of the same quality, construction and material offered elsewhere in new condition.

Condition guide

Book Condition Guide

Books in Like New Condition

This book may contain very minor cosmetic defects, but it is in pristine condition. There should be no yellowing, no foxing, no water damage, and no annotations of any kind on the cover and the pages. For paperbacks, there should not be any crease marks on the spine. This book is good as new — lucky you!

*Books may be missing bundle media (e.g. CD, e-book code), if included.

Books in Very Good Condition

This book has been used, but it is still in a clean condition. There should be no foxing or annotations of any kind on the inner pages, but a sparse amount may be present on the cover, title pages, or outside edges of the book. There should be no water damage of any kind. For paperbacks, there may be light crease marks on the spine.

*Books may be missing bundle media (e.g. CD, e-book code), if included.

Books in Good Condition

We do our best to ensure the quality of our books, but there is no escaping the wear and tear that comes with time. Slight foxing and some annotations may be present on the pages and the cover. There should be no water damage of any kind. For paperbacks, there may be several crease marks on the spine.

*Books may be missing bundle media (e.g. CD, e-book code), if included.

Books in Well Read Condition

This is a well-read book, which means that the previous owner probably really enjoyed it! The cover and pages may include moderate foxing and annotations, but the text is not obscured and still readable. Moderate cosmetic defects and minor water damage may be present on the edges of the book. For paperbacks, there may be multiple crease marks on the spine.

*Books may be missing bundle media (e.g. CD, e-book code), if included.

 

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ISBN: 9780521715225
Authors: Erik D. Demaine, Joseph O'Rourke
Publisher: Cambridge University Press
Date of Publication: 2008-09-15
Format: Paperback
Related Collections: Science, Art
Related Topics: Mathematics
Goodreads rating: 4.3
(rated by 27 readers)

Description

How can linkages, pieces of paper, and polyhedra be folded? The authors present hundreds of results and more than 60 open problems in this comprehensive look at the mathematics of folding, with an emphasis on algorithmic and computational aspects. Folding and unfolding problems have been studied since Albrecht Dürer in the early 1500s, but have only recently received systematic treatment in the mathematical literature. Over the past decade, there has been a surge of interest in these problems, with applications ranging from robotics to protein folding. There is a result showing that a series of jointed bars moving only in a plane can trace a name or any algebraic curve. One remarkable algorithm shows you can fold any straight-line drawing on paper so that the complete drawing can be cut out with a single straight cut. Aimed primarily at advanced undergraduate and graduate students in mathematics or computer science, this lavishly illustrated book will fascinate a broad audience, from high school students to researchers.
 

Where math, paper, and motion brilliantly collide

This is a dream read if you love seeing elegant mathematics turn into something tactile and surprising. It takes origami, linkages, and polyhedra and treats them like deep puzzles, full of clever proofs, visual beauty, and big ideas with real-world echoes in robotics and beyond. Readers who enjoy books that feel both rigorous and wondrous will likely find themselves happily falling down its many folded rabbit holes.

Note: While we do our best to ensure the accuracy of cover images, ISBNs may at times be reused for different editions of the same title which may hence appear as a different cover.