# Lesson 14

Defining Rotations

### Problem 1

Draw the image of quadrilateral \(ABCD\) when rotated \(120^\circ\) counterclockwise around the point \(D\).

### Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

### Problem 2

There is an equilateral triangle, \(ABC\), inscribed in a circle with center \(D\). What is the smallest angle you can rotate triangle \(ABC\) around \(D\) so that the image of \(A\) is \(B\)?

\(60^\circ\)

\(90^\circ\)

\(120^\circ\)

\(180^\circ\)

### Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

### Problem 3

Which segment is the image of \(AB\) when rotated \(90^\circ\) counterclockwise around point \(P\)?

### Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

### Problem 4

The semaphore alphabet is a way to use flags to signal messages. Here's how to signal the letter Q. Describe a transformation that would take the right hand flag to the left hand flag.

### Solution

### Problem 5

Here are 2 polygons:

Select **all** sequences of translations, rotations, and reflections below that would take polygon \(P\) to polygon \(Q\).

Rotate \(180^\circ\) around point \(A\).

Translate so that \(A\) is taken to \(J\). Then reflect over line \(BA\).

Rotate \(60^\circ\) counterclockwise around point \(A\) and then reflect over the line \(FA\).

Reflect over the line \(BA\) and then rotate \(60^\circ\) counterclockwise around point \(A\).

Reflect over line \(BA\) and then translate by directed line segment \(BA\).

### Solution

### Problem 6

- Draw the image of figure \(ABC\) when translated by directed line segment \(u\). Label the image of \(A\) as \(A’\), the image of \(B\) as \(B’\), and the image of \(C\) as \(C’\).
- Explain why the line containing \(AB\) is parallel to the line containing \(A’B’\).

### Solution

### Problem 7

There is a sequence of rigid transformations that takes \(A\) to \(A’\), \(B\) to \(B’\), and \(C\) to \(C’\). The same sequence takes \(D\) to \(D’\). Draw and label \(D’\):