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calendar_month Last update: 2025-08-25

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Symmetry in three-dimensional shapes booklet

calendar_month 2025-08-25

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Unit 1: Angles & Constructions
Unit 2: Shapes & Symmetry
Unit 3: Measurement & 3D Shapes
Unit 4: Position & Transformation

🎯 In this topic you will

Identify reflective symmetry in 3D shapes.

🧠 Key Words

isometric paper
plane of symmetry

Show Definitions

isometric paper: A type of grid paper with equally spaced triangular lines used to draw 3D shapes accurately.
plane of symmetry: An imaginary flat surface that divides a 3D shape into two identical mirror-image halves.

✨ Planes of Symmetry in 3D Shapes

Three-dimensional shapes can be symmetrical. For example, this chair is symmetrical. Instead of a line of symmetry, a 3D shape has a plane of symmetry. In three dimensions, a plane of symmetry divides a solid into two congruent parts.

💡 Tip: If you imagine a mirror on the plane, one half of the chair is a reflection of the other half of the chair.

📘 Worked example

Question. How many planes of symmetry does this cuboid have?

Answer:

The cuboid has three planes of symmetry: two vertical planes of symmetry and one horizontal plane of symmetry. Each plane of symmetry divides the cuboid into two congruent parts which are the mirror image of each other.

Each plane of symmetry slices the cuboid into two equal halves. These halves are congruent and reflect each other, just like looking in a mirror placed along the plane.

🧠 PROBLEM-SOLVING Strategy

Finding Planes of Symmetry in 3D Shapes

Follow these steps to describe or draw the planes of symmetry for prisms, pyramids, and cylinders.

Identify the shape (cube, cuboid, triangular prism, cylinder, etc.).
Look for symmetry in the 2D base. For example, a square base has $4$ lines of symmetry, so a square prism has $4$ planes of symmetry.
Check vertical planes: Does a vertical slice through the middle divide the shape into two congruent halves?
Check horizontal planes: Can a horizontal cut across the middle divide the shape into equal mirrored halves?
Use rotational reasoning: - A cube has $9$ planes of symmetry. - A cylinder has an infinite number of vertical planes of symmetry (all through its axis) plus one horizontal plane across its middle.
Count carefully: Record the total number of planes of symmetry and justify your answer with diagrams.

3D Shape	Planes of Symmetry
Cube	$9$
Square prism	$4$
Cylinder	$\infty + 1$

❓ EXERCISES

💡 Tip: Shapes a and b have a vertical plane of symmetry and shape c has a horizontal plane of symmetry.

1. These shapes are drawn on isometric paper.
Each shape has one plane of symmetry.
Copy the diagrams and draw the plane of symmetry on each shape.

👀 Show answer

Shape a has a vertical plane of symmetry.
Shape b has a vertical plane of symmetry.
Shape c has a horizontal plane of symmetry.

❓ EXERCISES

💡 Tip: Shape a has one vertical and one horizontal plane of symmetry. Shape b has two vertical planes and one horizontal plane of symmetry.

2. Shape a has two planes of symmetry. Shape b has three planes of symmetry.
Copy the diagrams and draw the planes of symmetry on each shape.

👀 Show answer

Shape a has one vertical and one horizontal plane of symmetry.
Shape b has two vertical planes and one horizontal plane of symmetry.

💡 Tip: For part c, is the plane of symmetry horizontal, vertical or diagonal?

3. The diagram shows an L-shaped prism.

a. Draw the object on isometric paper.

b. The prism has one plane of symmetry. Draw the plane of symmetry on your isometric drawing.

c. Describe the plane of symmetry.

👀 Show answer

a. The object is drawn on isometric paper as shown.
b. The plane of symmetry is drawn through the middle of the prism.
c. The plane of symmetry is vertical.

🧠 Think like a Mathematician

Task: Investigate the planes of symmetry in a cube.

Steps:

Draw a cube. Draw a plane of symmetry that passes through four edges but no vertices.
Draw the cube again. Draw a plane of symmetry that passes through four vertices of the cube.
Copy and complete this statement: A cube has a total of ____ planes of symmetry.
Draw diagrams to justify your answer to part c.
Reflect on your answers and diagrams for parts a to d.

Follow-up Questions:

a. Which type of plane did you draw in step 1?

b. How is the plane in step 2 different?

c. How many planes of symmetry does a cube have in total?

d. Why does the cube have so many planes of symmetry?

👀 Show Answer

a: A vertical plane of symmetry that cuts the cube through the midpoints of four opposite edges.
b: This plane of symmetry passes through four opposite vertices instead of edges.
c: A cube has a total of $9$ planes of symmetry.
d: Because all faces and dimensions of the cube are equal, the cube can be divided into two congruent mirror-image halves in multiple ways.

❓ EXERCISES

5. The diagram shows a 3D shape.

a. Describe the planes of symmetry for this shape.

b. Copy the shape and draw on the planes of symmetry.

👀 Show answer

a. The shape (a cylinder with semicircular ends) has two vertical planes of symmetry through its central axis and one horizontal plane of symmetry across the middle.
b. When copied, the symmetry planes should be shown passing through the center vertically and horizontally, dividing the shape into congruent halves.

🧠 Think like a Mathematician

Investigation: Explore the connection between the lines of symmetry of 2D regular polygons and the planes of symmetry of the corresponding 3D prisms.

Task:

Copy and complete the table below for the given polygons and prisms.
Identify the relationship between the number of lines of symmetry of a polygon and the number of planes of symmetry of its prism.
Use your observation to predict the number of planes of symmetry in a decagonal and dodecagonal prism.
Reflect on and justify your answers with diagrams where possible.

2D regular polygon	Number of lines of symmetry	3D prism	Number of planes of symmetry
Triangle	3	Triangular prism	3
Square	4	Square prism	4
Pentagon	5	Pentagonal prism	5
Hexagon	6	Hexagonal prism	6
Octagon	8	Octagonal prism	8

Follow-up Questions:

b. What is the connection between the number of lines of symmetry of a regular 2D polygon and the number of planes of symmetry of its matching 3D prism?

c. Predict the number of planes of symmetry of:
i) a regular decagonal prism
ii) a regular dodecagonal prism

d. Reflect on your results and write a short justification for your predictions.

👀 Show Answer

b: The number of planes of symmetry of the prism is the same as the number of lines of symmetry of its 2D polygonal base.
c: i) A regular decagonal prism has $10$ planes of symmetry. ii) A regular dodecagonal prism has $12$ planes of symmetry.
d: Each plane of symmetry of the polygon extends through the prism, dividing it into two identical halves. This explains why the counts are equal.

❓ EXERCISES

a. Draw a cylinder.

b. Draw a plane of symmetry that passes through the circular ends of the cylinder.

c. Draw a plane of symmetry that does not pass through the circular ends of the cylinder.

d. How many planes of symmetry does a cylinder have? Explain your answer.

👀 Show answer

a. The cylinder is drawn with its two circular ends aligned vertically.
b. A vertical plane passing through the axis of the cylinder and the circular ends is a plane of symmetry.
c. A horizontal plane cutting the cylinder halfway between its two circular ends is also a plane of symmetry.
d. A cylinder has an infinite number of planes of symmetry passing through its central axis, plus one horizontal plane across its middle.

📘 What we've learned

A three-dimensional shape can have a plane of symmetry, which divides it into two congruent mirror-image halves.
We learned how to identify and draw planes of symmetry for cubes, cuboids, prisms, pyramids, and cylinders.
A cube has $9$ planes of symmetry, while a square prism has $4$ planes of symmetry.
A cylinder has an infinite number of vertical planes of symmetry (through its axis) and one horizontal plane of symmetry.
The number of planes of symmetry of a prism is directly related to the number of lines of symmetry of its polygonal base.
We practiced describing, predicting, and justifying symmetry in different 3D solids using diagrams.

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