Lesson 10

Rigid Transformations

  • Let’s draw some transformations.

10.1: Notice and Wonder: Transformed

What do you notice? What do you wonder?

3 parallelograms on isometric grid. Parallelogram S has vertices A, B, C and D. Parallelogram M has vertices A’, B’, C’ and D’. Parallelogram D has vertices E, F, G and H.

10.2: What’s the Same?

Draw each rigid transformation. Use the Style Bar to choose a different color for each one.

  1. Translate figure \(S\) along the line segment \(v\) in the direction shown by the arrow. Color: _____________
  2. Reflect figure \(S\) across line \(y\). Color: _____________
  3. Reflect figure \(S\) across line \(m\). Color: _____________
  4. Translate figure \(S\) along the line segment \(w\) in the direction shown by the arrow. Reflect this image across line \(y\). Color: _____________
  5. How are the images the same? How are they different?

10.3: Does Order Matter?

Here is an applet with 3 congruent L shapes on a grid. 

  1. Describe a sequence of transformations that will take Figure \(A\) onto Figure \(B\).
  2. If you reverse the order of your sequence, will the reverse sequence still take \(A\) onto \(B\)?
  3. Describe a sequence of transformations that will take Figure \(A\) onto Figure \(C\).
  4. If you reverse the order of your sequence, will the reverse sequence still take \(A\) onto \(C\)?


  1. Construct some examples of sequences of two rigid transformations that take Figure \(A\) to a new Figure \(D\) where reversing the order of the sequence also takes Figure \(A\) to Figure \(D\).

  2. Make some conjectures about when reversing the order of a sequence of two rigid transformations still takes a figure to the same place.

Summary

A figure is called congruent to another figure if there is a sequence of translations, rotations, and reflections that takes one of the figures onto the other. This is because translations, rotations, and reflections are rigid motions. Any sequence of rigid motions is called a rigid transformation. A rigid transformation is a transformation that doesn’t change measurements on any figure. With a rigid transformation, figures like polygons have corresponding sides of the same length and corresponding angles of the same measure.

The result of any transformation is called the image. The points in the original figure are the inputs for the transformation sequence and are named with capital letters. The points in the image are the outputs and are named with capital letters and an apostrophe, which is referred to as “prime.”

There are many ways to show that 2 figures are congruent since many sequences of transformations take a figure to the same image. However, order matters in a set of instructions. Sometimes we can switch 2 steps in a sequence and get the same output, but other times, switching 2 steps results in a different image. These 2 sequences of transformations both have the points \(A\), \(B\), and \(C\) as inputs and points \(A’’\), \(B’’\), and \(C’’\) as outputs. Each step in the sequences of rigid transformations creates a triangle that is congruent to triangle \(ABC\).

Two images of triangle A B C  in a transformation sequence.

Glossary Entries

  • assertion

    A statement that you think is true but have not yet proved.

  • congruent

    One figure is called congruent to another figure if there is a sequence of translations, rotations, and reflections that takes the first figure onto the second.

  • image

    If a transformation takes \(A\) to \(A'\), then \(A\) is the original and \(A'\) is the image.

  • rigid transformation

    A rigid transformation is a translation, rotation, or reflection. We sometimes also use the term to refer to a sequence of these.

  • theorem

    A statement that has been proved mathematically.