(p. 661) A(n) ____-regular tessellation is formed by two or more regular polygons.
(p. 663) The number of times a figure maps onto ______ as it rotates from 0° to 360° is called the order of symmetry.
(p. 673) If k > 1, then the dilation is a(n) ____________.
(p. 664) A three-dimensional figure has _____ symmetry if the figure can be mapped onto itself by a reflection in a _____.
(p. 663) A figure in the plane has __________ symmetry (or radial symmetry) if the figure can be mapped onto itself by a rotation between 0° and 360° about the center of the figure, called the center of symmetry (or point of symmetry).
(p. 662) A figure in the plane has ____________ symmetry (or line symmetry) if the figure can be mapped onto itself by a reflection in a line, called a line of symmetry (or axis of symmetry).
(p. 661) A(n) _______ tessellation is formed by only one type of regular polygon.
(p. 664) _____ - a polyhedron with two parallel congruent bases connected by parallelogram faces.
(p. 653) The composition of two reflections in ____________ lines is the same as a rotation.
(p. 652) Double ______ are used to indicate that vertex is the image of a second transformation.
(p. 673) If 0 < k < 1, then the dilation is a(n) __________.
(p. 673) A(n) ________ with center C and positive scale factor k, k ≠ 1, is a function that maps a point P in a figure to its image.
(p. 652) The composition of ___ reflections in parallel lines is the same as a translation.
(p. 662) A figure has ________ if there exists a rigid motion--reflection, translation, rotation, or glide reflection--that maps the figure onto itself.
(p. 652) Glide reflections, reflections, translations, and rotations are the only four _____ motions or isometries in a plane.
(p. 665) A three-dimensional figure has ____ symmetry if the figure can be mapped onto itself by a rotation between 0° and 360° in a line called the ____ of symmetry.
Where is my puzzle?