- Ball, Walter,
*Mathematical Recreations and Essays*QA95.B18 - Baer, Steve,
*Zome Primer: elements of zonohedra geometry: two and three dimensional growths of stars with five fold symmetry*QA491.B28 (oversize) - Faulkner, J. Earl, ``Paper Folding as a Technique in Visualizing a
Certain Class of Transformations,''
*Mathematics Teacher*68, May `75, 376-77. - Geretschlager, Robert, ``Euclidean Constructions and the Geometry
of Origami,''
*Mathematics Magazine*, Dec '95 - Hanson, Robert M.;
*Molecular Origami: Precision Scale Models from Paper,*University Science Books, Sausalito, CA 1995. - Hilton and Pederson,
*Approximating Any Regular Polygon by Folding Paper*, Mathematics Magazine, May '83 - Johnson, Donovan,
*Paper Folding for the Mathematics Class*QA459.J6 - Miyazaki, Klji,
*An Adventure in Multidimensional Space: the art and geometry of polygons, polyhedra, and polytopes*N7430.5.M5913 - Olson, Alton,
*Mathematics Through Paper Folding*, NCTM 1975. - Pedersen, Jean; ``Approximating Regular Polygons through Paper
Folding;''
*Mathematics Magazine*Vol. 56, No. 3; May 1983. - Pierce, Peter & Susan,
*Polyhedra Primer*QA491.P4 - Row, Sundara;
*Geometric Exercises in Paper Folding,*The Open Court Publishing Company; La Salle, IL 1941. - Robertson,
*Geometric Constructions Using Hinged Mirrors*, Math Teacher, May `86 - Scher, Daniel; ``Folded Paper, Dynamic Geometry, and Proof: A
Three-Tier Approach to the Conics,''
*The Mathematics Teacher,*Vol. 89, No. 3; March 1996. - Senechal, Marjorie, Fleck, George, eds.,
*Shaping Space A Polyhedral Approach.*(J.N.C.) - Silvey, Taylor,
*Paper and Scissors Polygons*(J.N.C.) - Sundara Rao, Tandalam,
*T. Sundara Row's Geometric Exercises in Paper Folding*QA462.S8 - Wenninger,
*Polyhedron Models for the Classroom*NCTM, 1975. QA491.W4