03491nam 22007212 450 991082603490332120151005020624.01-107-21769-51-139-23486-21-283-29846-51-139-12295-997866132984610-511-97502-31-139-11721-11-139-12787-X1-139-11285-61-139-11504-9(CKB)2550000000055734(EBL)775112(OCoLC)769341819(SSID)ssj0000537670(PQKBManifestationID)11358354(PQKBTitleCode)TC0000537670(PQKBWorkID)10554376(PQKB)10641263(UkCbUP)CR9780511975028(MiAaPQ)EBC775112(Au-PeEL)EBL775112(CaPaEBR)ebr10502780(CaONFJC)MIL329846(PPN)261372181(EXLCZ)99255000000005573420101011d2011|||| uy| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierHow to fold it the mathematics of linkages, origami, and polyhedra /Joseph O'Rourke[electronic resource]Cambridge :Cambridge University Press,2011.1 online resource (xii, 177 pages) digital, PDF file(s)Title from publisher's bibliographic system (viewed on 05 Oct 2015).0-521-14547-3 0-521-76735-0 Machine generated contents note: Part I. Linkages: 1. Robot arms; 2. Straight-line linkages and the pantograph; 3. Protein folding and pop-up cards; Part II. Origami: 4. Flat vertex folds; 5. Fold and one-cut; 6. The shopping bag theorem; Part III. Polyhedra: 7. Durer's problem: edge unfolding; 8. Unfolding orthogonal polyhedra; 9. Folding polygons to convex polyhedra; 10. Further reading; 11. Glossary; 12. Answers to exercises; 13. Permissions and acknowledgments.What do proteins and pop-up cards have in common? How is opening a grocery bag different from opening a gift box? How can you cut out the letters for a whole word all at once with one straight scissors cut? How many ways are there to flatten a cube? With the help of 200 colour figures, author Joseph O'Rourke explains these fascinating folding problems starting from high school algebra and geometry and introducing more advanced concepts in tangible contexts as they arise. He shows how variations on these basic problems lead directly to the frontiers of current mathematical research and offers ten accessible unsolved problems for the enterprising reader. Before tackling these, you can test your skills on fifty exercises with complete solutions. The book's website, http://www.howtofoldit.org, has dynamic animations of many of the foldings and downloadable templates for readers to fold or cut out.Liaison theory (Mathematics)OrigamiMathematicsPolyhedraProtein foldingLiaison theory (Mathematics)OrigamiMathematics.Polyhedra.Protein folding.516.3/5MAT000000bisacshO'Rourke Joseph622259UkCbUPUkCbUPBOOK9910826034903321How to fold it4098513UNINA