Back to Exercise: Understand that a two-dimensional figure is congruent to another if the second can be obtained from the first by a sequence of rotations, reflections, and translations

Exercises: Congruence Through Sequences of Rigid Motions

Work through each section in order. When you describe a sequence of rigid motions, name each transformation in order and give its parameters: direction and distance for a translation, the line of reflection for a reflection, and the center and angle (with direction) for a rotation. Two figures are congruent only when a sequence of rigid motions maps one exactly onto the other.

Grade 8·21 problems·~35 min·Common Core Math - Grade 8·container·8-g-a-2
Work through problems with immediate feedback
A

Recall / Warm-Up

These problems review skills you already know: performing single rigid motions and comparing measurements.

A coordinate grid with triangle ABC on the left and a congruent dashed triangle DEF the same shape farther right.
1.

Triangle ABCABC has vertices A(1,1)A(1, 1), B(4,1)B(4, 1), C(2,3)C(2, 3). Triangle DEFDEF has vertices D(7,1)D(7, 1), E(10,1)E(10, 1), F(8,3)F(8, 3). Which single transformation maps ABCABC onto DEFDEF?

2.

Which list contains only rigid motions (transformations that keep a figure the same size and shape)?

3.

Two triangles have side lengths of 33, 44, 55 and 33, 44, 55. A third triangle has side lengths 33, 44, 66. Rigid motions never change a length. Which pair of triangles could possibly be congruent?

B

Fluency Practice

For each pair of congruent figures, describe a sequence of rigid motions that maps the first onto the second. Name each transformation in order, with its parameters.

A coordinate grid showing triangle ABC near the bottom and a congruent dashed triangle DEF directly above it.
1.

Triangle ABCABC has vertices A(1,1)A(1, 1), B(4,1)B(4, 1), C(2,3)C(2, 3). Triangle DEFDEF has vertices D(1,6)D(1, 6), E(4,6)E(4, 6), F(2,8)F(2, 8). Describe a single rigid motion that maps ABCABC onto DEFDEF, and explain why this proves ABCDEFABC \cong DEF.

A coordinate grid showing solid triangle ABC in the first quadrant and a congruent dashed triangle DEF turned around in the third quadrant.
2.

Triangle ABCABC has vertices A(1,1)A(1, 1), B(4,1)B(4, 1), C(1,3)C(1, 3). Triangle DEFDEF has vertices D(1,1)D(-1, -1), E(4,1)E(-4, -1), F(1,3)F(-1, -3). A single motion is not enough. Describe a sequence of two rigid motions that maps ABCABC onto DEFDEF, naming each step in order.

A coordinate grid showing triangle ABC on the right of the y-axis and its mirror-image dashed triangle DEF on the left.
3.

Triangle ABCABC has vertices A(1,1)A(1, 1), B(4,1)B(4, 1), C(2,4)C(2, 4). Triangle DEFDEF has vertices D(1,1)D(-1, 1), E(4,1)E(-4, 1), F(2,4)F(-2, 4). Describe a single rigid motion that maps ABCABC onto DEFDEF.

A coordinate grid showing triangle GHI pointing right and a congruent dashed triangle JKL pointing up, sharing the origin.
4.

Triangle GHIGHI has vertices G(0,0)G(0, 0), H(3,0)H(3, 0), I(1,2)I(1, 2). Triangle JKLJKL has vertices J(0,0)J(0, 0), K(0,3)K(0, 3), L(2,1)L(-2, 1). They share the vertex G=JG = J. Which single rigid motion maps GHIGHI onto JKLJKL?

5.

Point P(2,5)P(2, 5) is rotated 90°90\degree clockwise about the origin using the rule (x,y)(y,x)(x, y) \rightarrow (y, -x). What are the coordinates of the image point PP'? Write your answer in the form (a,b)(a, b).

You're viewing 2 of 6 sections.

Create a free account to continue the full exercise set and save your progress.

Create free account
0 of 8 answered

Answer all problems to submit.