Learn on PengiReveal Math, Course 3Module 8: Transformations

Lesson 8-3: Rotations

In this Grade 8 lesson from Reveal Math Course 3, Module 8, students learn how to perform and describe rotations as a type of rigid transformation, including 90°, 180°, and 270° clockwise and counterclockwise rotations about a vertex or the origin. Students use coordinate notation rules such as (x, y) → (y, −x) for a 90° clockwise rotation about the origin to find the coordinates of a rotated image. The lesson also introduces key vocabulary including center of rotation and rotation, and reinforces that rotations preserve congruence between the preimage and image.

Section 1

Defining a Rotation: Center, Angle, and Direction

Property

A rotation is a rigid transformation that "turns" a figure around a fixed anchor point called the Center of Rotation. Because it is a rigid motion, the figure keeps its exact size and shape. To perfectly describe a rotation, you must have three pieces of information:

The Center: The fixed dot the shape spins around.
The Angle: How far it spins (e.g., $90^\circ$ , $180^\circ$ ).
The Direction: Clockwise (CW, like a clock) or Counterclockwise (CCW, opposite of a clock).

Note: In mathematics, Counterclockwise (CCW) is always the standard, "positive" direction.

Examples

Macro View: Think of a Ferris wheel. The center hub is the "Center of Rotation," and the passenger cars travel in circular paths around it. The cars don't change size as they spin.
Micro Detail (Direction Equivalence): Spinning $90^\circ$ Clockwise lands you in the exact same spot as spinning $270^\circ$ Counterclockwise ( $360^\circ - 90^\circ = 270^\circ$ ).
Micro Detail (Distance): If point $A$ is 5 inches away from the center of rotation, its image $A'$ will also be exactly 5 inches away from the center.

Explanation

A common mistake is thinking the shape just rotates in place. Unless the center of rotation is inside the shape, the entire shape travels along an invisible circular track to a new location on the graph. The center point is the only thing in the entire universe that does not move during a rotation!

Section 2

The Center of Rotation

Property

The center of rotation is the fixed point around which a figure rotates. All points on the figure move in circular paths around this center, and the center itself remains stationary during the rotation.

Examples

Section 3

Coordinate Rules for Rotations (About the Origin)

Property

When the center of rotation is the origin $(0,0)$ , we use algebraic rules to find the new coordinates. Assume all angles are Counterclockwise (CCW) unless stated otherwise.

$90^\circ$ CCW: $(x, y) \rightarrow (-y, x)$ [Swap the numbers, change the sign of the NEW first number]
$180^\circ$ : $(x, y) \rightarrow (-x, -y)$ [Do NOT swap numbers, just change BOTH signs]
$270^\circ$ CCW (or $90^\circ$ CW): $(x, y) \rightarrow (y, -x)$ [Swap the numbers, change the sign of the NEW second number]

Examples

$90^\circ$ CCW Rotation: Rotate $A(4, 5)$ .
- Step 1 (Swap): $(5, 4)$
- Step 2 (Change first sign): $(-5, 4)$ . So, $A'(-5, 4)$ .
$180^\circ$ Rotation: Rotate $B(-2, 7)$ .
- Keep the order, flip both signs: $(+2, -7)$ . So, $B'(2, -7)$ .
$90^\circ$ CW (which is $270^\circ$ CCW): Rotate $C(-3, -6)$ .
- Step 1 (Swap): $(-6, -3)$
- Step 2 (Change second sign): $(-6, +3)$ . So, $C'(-6, 3)$ .

Explanation

This is where the most errors happen! Students often try to swap the numbers and change the signs at the exact same time in their heads, which leads to messy mistakes with negatives. Always do it in two micro-steps: Write down the swapped numbers first, then apply the negative sign to the correct position. Also, remember that a $180^\circ$ rotation rule $(-x, -y)$ looks exactly like reflecting across both the x and y axes!

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Module 8: Transformations

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Lesson 1
Lesson 8-1: Translations
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Lesson 2
Lesson 8-2: Reflections
Learn Practice
Lesson 3Current
Lesson 8-3: Rotations
Learn Practice
Lesson 4
Lesson 8-4: Dilations
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Lesson overview

Expand to review the lesson summary and core properties.

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Section 1

Defining a Rotation: Center, Angle, and Direction

Property

The Center: The fixed dot the shape spins around.
The Angle: How far it spins (e.g., $90^\circ$ , $180^\circ$ ).
The Direction: Clockwise (CW, like a clock) or Counterclockwise (CCW, opposite of a clock).

Note: In mathematics, Counterclockwise (CCW) is always the standard, "positive" direction.

Examples

Macro View: Think of a Ferris wheel. The center hub is the "Center of Rotation," and the passenger cars travel in circular paths around it. The cars don't change size as they spin.
Micro Detail (Direction Equivalence): Spinning $90^\circ$ Clockwise lands you in the exact same spot as spinning $270^\circ$ Counterclockwise ( $360^\circ - 90^\circ = 270^\circ$ ).
Micro Detail (Distance): If point $A$ is 5 inches away from the center of rotation, its image $A'$ will also be exactly 5 inches away from the center.

Explanation

Section 2

The Center of Rotation

Property

Examples

Section 3

Coordinate Rules for Rotations (About the Origin)

Property

When the center of rotation is the origin $(0,0)$ , we use algebraic rules to find the new coordinates. Assume all angles are Counterclockwise (CCW) unless stated otherwise.

$90^\circ$ CCW: $(x, y) \rightarrow (-y, x)$ [Swap the numbers, change the sign of the NEW first number]
$180^\circ$ : $(x, y) \rightarrow (-x, -y)$ [Do NOT swap numbers, just change BOTH signs]
$270^\circ$ CCW (or $90^\circ$ CW): $(x, y) \rightarrow (y, -x)$ [Swap the numbers, change the sign of the NEW second number]

Examples

$90^\circ$ CCW Rotation: Rotate $A(4, 5)$ .
- Step 1 (Swap): $(5, 4)$
- Step 2 (Change first sign): $(-5, 4)$ . So, $A'(-5, 4)$ .
$180^\circ$ Rotation: Rotate $B(-2, 7)$ .
- Keep the order, flip both signs: $(+2, -7)$ . So, $B'(2, -7)$ .
$90^\circ$ CW (which is $270^\circ$ CCW): Rotate $C(-3, -6)$ .
- Step 1 (Swap): $(-6, -3)$
- Step 2 (Change second sign): $(-6, +3)$ . So, $C'(-6, 3)$ .

Explanation

Book overview

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Module 8: Transformations

Back to Reveal Math, Course 3

Lesson 1
Lesson 8-1: Translations
Learn Practice
Lesson 2
Lesson 8-2: Reflections
Learn Practice
Lesson 3Current
Lesson 8-3: Rotations
Learn Practice
Lesson 4
Lesson 8-4: Dilations
Learn Practice

Overview

Lesson overview

Review the lesson summary and core properties without leaving the current page.

Overview

Section 1

Defining a Rotation: Center, Angle, and Direction

Property

The Center: The fixed dot the shape spins around.
The Angle: How far it spins (e.g., $90^\circ$ , $180^\circ$ ).
The Direction: Clockwise (CW, like a clock) or Counterclockwise (CCW, opposite of a clock).

Note: In mathematics, Counterclockwise (CCW) is always the standard, "positive" direction.

Examples

Macro View: Think of a Ferris wheel. The center hub is the "Center of Rotation," and the passenger cars travel in circular paths around it. The cars don't change size as they spin.
Micro Detail (Direction Equivalence): Spinning $90^\circ$ Clockwise lands you in the exact same spot as spinning $270^\circ$ Counterclockwise ( $360^\circ - 90^\circ = 270^\circ$ ).
Micro Detail (Distance): If point $A$ is 5 inches away from the center of rotation, its image $A'$ will also be exactly 5 inches away from the center.

Explanation

Section 2

The Center of Rotation

Property

Examples

Section 3

Coordinate Rules for Rotations (About the Origin)

Property

When the center of rotation is the origin $(0,0)$ , we use algebraic rules to find the new coordinates. Assume all angles are Counterclockwise (CCW) unless stated otherwise.

$90^\circ$ CCW: $(x, y) \rightarrow (-y, x)$ [Swap the numbers, change the sign of the NEW first number]
$180^\circ$ : $(x, y) \rightarrow (-x, -y)$ [Do NOT swap numbers, just change BOTH signs]
$270^\circ$ CCW (or $90^\circ$ CW): $(x, y) \rightarrow (y, -x)$ [Swap the numbers, change the sign of the NEW second number]

Examples

$90^\circ$ CCW Rotation: Rotate $A(4, 5)$ .
- Step 1 (Swap): $(5, 4)$
- Step 2 (Change first sign): $(-5, 4)$ . So, $A'(-5, 4)$ .
$180^\circ$ Rotation: Rotate $B(-2, 7)$ .
- Keep the order, flip both signs: $(+2, -7)$ . So, $B'(2, -7)$ .
$90^\circ$ CW (which is $270^\circ$ CCW): Rotate $C(-3, -6)$ .
- Step 1 (Swap): $(-6, -3)$
- Step 2 (Change second sign): $(-6, +3)$ . So, $C'(-6, 3)$ .

Explanation

Book overview

Jump across lessons in the current chapter without opening the full course modal.

Continue this chapter

Module 8: Transformations

Back to Reveal Math, Course 3

Lesson 1
Lesson 8-1: Translations
Learn Practice
Lesson 2
Lesson 8-2: Reflections
Learn Practice
Lesson 3Current
Lesson 8-3: Rotations
Learn Practice
Lesson 4
Lesson 8-4: Dilations
Learn Practice

Lesson 8-3: Rotations

Property

Examples

Explanation

Property

Examples

Property

Examples

Explanation

Module 8: Transformations

Lesson 8-1: Translations

Lesson 8-2: Reflections

Lesson 8-3: Rotations

Lesson 8-4: Dilations

Lesson overview

Property

Examples

Explanation

Property

Examples

Property

Examples

Explanation

Module 8: Transformations

Lesson 8-1: Translations

Lesson 8-2: Reflections

Lesson 8-3: Rotations

Lesson 8-4: Dilations

Lesson 8-1: Translations

Lesson 8-2: Reflections

Lesson 8-3: Rotations

Lesson 8-4: Dilations