2D Shapes

Here we will learn about 2D shapes, including symmetry, perimeter, area, circles, sectors, arcs and angles in polygons.

There are also 2D shapes worksheets based on Edexcel, AQA and OCR exam questions, along with further guidance on where to go next if you’re still stuck.

What are 2D shapes?

2D shapes are flat shapes which only have two dimensions; length and width.

Some examples of common 2D shapes names are triangles, rectangles, pentagons, hexagons, heptagons, octagons, nonagons, decagons and circles.

2D shapes image 1

We can solve problems involving 2D shapes using a variety of methods.

What are 2D shapes?

What are 2D shapes?

Polygons

Polygons are 2D shapes made from straight lines. You will deal with two different types of polygons.

Regular polygons

Regular polygons have specific properties. They have all sides of equal length and all interior angles are equal.

Examples of basic 2D shapes that are regular polygons are equilateral triangles and squares.

Irregular polygons

Irregular shapes (or polygons) do not have all equal sides and do not have all equal angles. When the number of sides is unknown, we describe this shape as an \textbf{n-gon} where the number of sides is given as \textbf{n}.

You will also need to be able to solve problems involving angles in polygons. The angles in a polygon can help determine whether a polygon is regular, a specific type of polygon or to determine how many sides a polygon has. You need to be familiar with interior and exterior angles of polygons.

Interior angles are angles that are contained within the polygon.

2D shapes image 2

The sum of interior angles of any polygon can be calculated using the formula,

Sum of interior angles = (n-2) \times 180

where n represents the number of sides.

Exterior angles are supplementary to the interior angle. This means that the sum of the interior and exterior angles at a vertex always equals 180^{o}. We can use this property to find either the interior angle, or exterior angle at a vertex.

For any polygon the sum of exterior angles of a polygon 360^{o}.

2D shapes image 3

Step-by-step guide: Polygons

Symmetry

Symmetry is when a line is drawn through a shape to make one side of the line a reflection of the other. It is a property of a 2D polygon or 3D polyhedron.

There are two different types of symmetry that you need to be aware of. Lines of symmetry and rotational symmetry.

For example, a rectangle has two lines of symmetry

2D shapes symmetry image 1

and has order 2 rotational symmetry.

2D shapes symmetry image 2

Step-by-step guide: Symmetry

Area

Area is a measure of how much space there is inside of a 2 dimensional shape.

Here are formulae we need to remember to calculate the area of certain 2D shapes.

These are seen in the table below.

2D shapes area image 1

Step-by-step guide: How to work out area

Perimeter

The perimeter is the total distance around the outside of a 2D shape.

For example, let’s find the perimeter of the triangle.

2D shapes perimeter image 1

For example, let’s find the perimeter of the rectangle.

The opposite sides of a rectangle are equal, a and b are the side lengths.

2D shapes perimeter image 2

For example, let’s find the perimeter of the circle.

The perimeter of a circle is known as the circumference of a circle.

2D shapes perimeter image 3

The circumference of this circle is

\begin{aligned} \text { Circumference } &=2 \times \pi \times r \\\\ &=2 \times \pi \times 12 \\\\ &=24 \pi \ \mathrm{ cm} \end{aligned}

Step-by-step guide: How to work out perimeter

Circles, sectors and arcs

Circles are round plane figures whose boundaries consist of points equidistant from a fixed point (the centre of the circle).

2D shapes circles, sectors and arcs image 1

As well as the area and circumference of a circle we can also work out the following.

Step-by-step guide: Circles, sectors and arcs

  • Parts of a circle

The parts of a circle have specific names and properties which you need to know for all circle related questions. An important fact to remember is that the radius of a circle is half of its diameter.

2D shapes circles, sectors and arcs image 2

Step-by-step guide: Parts of a circle

  • Area of a sector

The area of a sector is part of the area of a circle.

It can be found by using the formula \frac{\theta}{360} \times \pi r^{2}.

2D shapes circles, sectors and arcs image 3

For example,

2D shapes circles, sectors and arcs image 4

The area of this sector is

\begin{aligned} &=\frac{\theta}{360} \times \pi r^{2} \\\\ &=\frac{60}{360} \times \pi \times 4^{2} \\\\ &=\frac{1}{6} \pi \end{aligned}

Step-by-step guide: Area of a sector

See also: Sector of a circle

  • Arc length

The arc of a circle is part of the circle’s circumference.

It’s length can be found using the formula \frac{\theta}{360} \times \pi d.

2D shapes circles, sectors and arcs image 5

For example,

2D shapes circles, sectors and arcs image 6

The arc length of this sector is

\begin{aligned} &=\frac{\theta}{360} \times \pi d \\\\ &=\frac{60}{360} \times \pi \times 8 \\\\ &=\frac{60}{360} \times \pi \times 8 \\\\ &=\frac{4}{3} \pi \end{aligned}

Step-by-step guide: Arc length

See also: Arc of a circle

  • Perimeter of a sector

To find the perimeter of a sector you need to find the arc length and then add it to the two straight sides which are both radii (i.e. the length around the outside of the sector).

2D shapes circles, sectors and arcs image 7

For example,

2D shapes circles, sectors and arcs image 8

The perimeter of this sector is

\begin{aligned} &=\frac{60}{360} \times \pi \times 8+4+4 \\\\ &=\frac{4}{3} \pi+8 \end{aligned}

Step-by-step guide: Perimeter of a sector

  • Segment of a circle

A segment of a circle is created by an arc length and a chord.

You may have to find its area using a combination of mathematical rules such as trigonometry or Pythagoras’ theorem.

2D shapes circles, sectors and arcs image 9

Step-by-step guide: Segment of a circle

  • Equation of a circle

The equation of a circle (at GCSE) can be given in the form below

x^{2}+y^{2}=r^{2}.

2D shapes circles, sectors and arcs image 10

Step-by-step guide: Equation of a circle

How to use 2D shapes

We can use 2D shapes in lots of different ways.

We will learn about:

  • Polygons
  • Symmetry
  • Area
  • Perimeter
  • Circles, sectors and arcs

Explain how to use 2D shapes

Explain how to use 2D shapes

Area of 2D shapes worksheet

Area of 2D shapes worksheet

Area of 2D shapes worksheet

Get your free 2D shapes worksheet of 20+ area of 2D shapes questions and answers. Includes reasoning and applied questions.

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Area of 2D shapes worksheet

Area of 2D shapes worksheet

Area of 2D shapes worksheet

Get your free 2D shapes worksheet of 20+ area of 2D shapes questions and answers. Includes reasoning and applied questions.

DOWNLOAD FREE

2D shapes examples

Example 1: regular / irregular polygons

The shape ABCDE below is made from two scalene triangles, and one isosceles triangle. M is a midpoint on the line CD. AM is a line of symmetry.

2D shapes example 1 image 1

Determine what type of polygon ABCDE is and determine if it is regular or irregular.

  1. State / calculate the number of sides of the polygon.

The polygon ABCDE has 5 sides so it is a type of pentagon.

2Determine the size of the angles / side lengths within the polygon.

As triangle ACD is isosceles and AM is a line of symmetry, angle ACD = angle ADC = 52^{o}.

As the sum of angles in a triangle is 180^{o},

angle CAD = 180-(52+52)=76^{o}.

As AM is a line of symmetry, triangles ABC and ACD must be congruent, sharing the same angles and side lengths. This means that,

  • Angle BCA = angle ADE =56^{o}
  • Angle DAE = angle CAB =16^{o}

Again, as the sum of angles in a triangle total 180^{o},

angle AED = 180-(56+16)=108^{o}.

This is the same for angle ABC as it is symmetrical to angle AED and therefore equal.

We now have all of the following angles,

2D shapes example 1 image 2

3Recognise the other properties of the polygon.

For a pentagon to be regular, all of the interior angles must be the same and side lengths must be the same.

Furthermore, as the interior angle sum of a pentagon is 540^{o}, each interior angle of a regular pentagon is equal to

540\div{5}=108^{o}.

Adding the angles at each vertex together, we have

2D shapes example 1 image 3

Each interior angle of the polygon ABCDE is equal to 108^{o}.

However, the triangles AED and ABC are scalene. Therefore, AB has a different length to BC .

The interior angles are equal but the side lengths are not equal.

The polygon is an irregular pentagon.

Example 2: types of quadrilateral

Determine what type of quadrilateral ABCD is below.

2D shapes example 2 image 1

Determine the size of the angles / side lengths within the quadrilateral.

Recognise the other properties of the polygon.

Example 3: symmetry

State the number of lines of symmetry for a regular hexagon.

2D shapes example 3 image 1

Locate the centre of the 2D shape.

Use a ruler to visualise a horizontal and/or vertical line of symmetry through the centre of the shape.

Continue to rotate the ruler around 180 degrees over the centre point to cover all sides and vertices.

Example 4: area of an isosceles triangle

Calculate the area of the triangle below.

2D shapes example 4 image 1

Identify the base and perpendicular height of the triangle.

Write the area formula.

Substitute known values into the area formula.

Solve the equation.

Write the answer, including the units.

Example 5: circumference of a circle

Calculate the circumference of a circle with a radius of 4cm. Write your answer correct to 2 decimal places.

2D shapes example 5 image 1

Find the radius or diameter of the circle.

Use the relevant formula to calculate the circumference of the circle.

Give your answer clearly with the correct units.

Example 6: perimeter of compound shapes – real life problem

A car park needs a new boundary fence installing. A sketch of the car park is given below.

2D shapes example 6 image 1

Determine the length of the boundary wall (the car park entrance/exit must not be included in this value).

Add all the side lengths.

Write the final answer with the correct units.

Example 7: area of a sector

A circular cake is cut into 8 equal slices as shown below.

2D shapes example 7 image 1

Calculate the area of the top of one slice of cake.

Find the length of the radius \textbf{r} .

Find the size of the angle creating the sector

Substitute the value of the radius and the angle into the formula for the area of a sector.

Clearly state your answer.

Example 8: equation of a circle

Determine the equation of the unit circle, centred at the origin.

2D shapes example 8 image 1

Write the general equation of a circle.

State any variables you know.

Substitute any values you know into the equation.

Use the information you have to solve the problem.

Clearly state the answer.

Common misconceptions

  • Rotational symmetry/lines of symmetry

Lines of symmetry are often confused with rotational symmetry. A line of symmetry on a two-dimensional shape divides the shape equally into two symmetrical pieces.

Rotational symmetry is the number of times a shape fits into itself when rotated around its centre.

  • Confusing perimeter with area

Remember, perimeter is distance around the outside of a shape, whilst area is the space inside the shape.

  • Angles properties

Ensure you have a good understanding of the different types of angles (for example, acute angles and right angles) along with how to calculate angles in polygons and angles in parallel lines.

Getting these confused can lead to misconceptions when problem solving.

Practice 2D shapes questions

1. Which of the following shapes has 2 lines of symmetry and rotational symmetry order 2.

Parallelogram

GCSE Quiz False

Rhombus

GCSE Quiz True

Square

GCSE Quiz False

Kite

GCSE Quiz False

A parallelogram has no lines of symmetry and rotational symmetry order 2.

 

A square has 4 lines of symmetry and rotational symmetry order 4.

 

A kite has 1 line of symmetry and no rotational symmetry.

 

2D shapes practice question 1

2. The rectangle has a perimeter of 42cm. Find x.

 

2D shapes practice question 2

4cm
GCSE Quiz True

11cm
GCSE Quiz False

24cm
GCSE Quiz False

6cm
GCSE Quiz False

Form an equation for the perimeter.

 

2x+x+9+2x+x+9=18

 

6x+18=42

 

Solve the equation, to find x=4.

3. Find the area of the isosceles triangle.

 

2D shapes practice question 3

60cm^2
GCSE Quiz False

120cm^2
GCSE Quiz False

96cm^2
GCSE Quiz False

48cm^2
GCSE Quiz True

This is an isosceles triangle. We can split it vertically to form two identical triangles with base 6cm, and hypotenuse 10cm.

 

We then use Pythagoras’ theorem to find the height of the triangle.

 

\begin{aligned} &a^{2}+b^{2}=c^{2} \\\\ &6^{2}+\text { height }{ }^{2}=10^{2} \\\\ &\text { height }{ }^{2}=100-36 \\\\ &\text { height }{ }^{2}=64 \\\\ &\text { height }=8cm \end{aligned}

 

Then we can use the formulae for the area of a triangle, and multiply the height by the base (remembering to use the base as 12cm for the area of the whole triangle) then divide by 2.

 

\begin{aligned} \text { Area of a triangle } &=\frac{1}{2} \times \text { base } \times \text { height } \\\\ &=\frac{1}{2} \times 12 \times 8 \\\\ &=48cm^{2} \end{aligned}

4. The sector has an area of \frac{27}{2} \pi cm^2, Find the perimeter in terms of \pi.

 

2D shapes practice question 4

3 \pi \ cm
GCSE Quiz False

18+18 \pi \ cm
GCSE Quiz False

9+3 \pi \ cm
GCSE Quiz False

18+3 \pi \ cm
GCSE Quiz True

To find the perimeter of the sector we need to calculate the arc length. To do this we need to know the diameter of the sector.

 

We can work backwards using the formula for the area of a sector to find the radius to help us find the diameter.

 

\text { Area of a sector }=\frac{\theta}{360} \times \pi \times r^{2}

 

Substituting in what we know,

 

\begin{aligned} &\frac{60}{360} \times \pi \times r^{2}=\frac{27}{2} \pi \\\\ &\frac{60}{360} r^{2}=\frac{27}{2} \\\\ &r^{2}=81 \\\\ &r=9cm \end{aligned}

 

Now we can calculate the arc length. If the radius is 9cm, the diameter must be 18cm.

 

\text { Arc length }=\frac{\theta}{360} \times \pi \times d

 

Substituting in what we know,

 

\begin{aligned} &=\frac{60}{360} \times \pi \times 18 \\\\ &=3 \pi \ cm \end{aligned}

 

For the total perimeter we need to add the two radii to the arc length.

 

\text { Perimeter }=3 \pi+18cm

5. What is the sum of the interior angles of a pentagon?

360^{\circ}
GCSE Quiz False

540^{\circ}
GCSE Quiz True

720^{\circ}
GCSE Quiz False

900^{\circ}
GCSE Quiz False
\begin{aligned} \text { Sum of the interior angles of a pentagon } &=(5-2) \times 180 \\\\ &=3 \times 180 \\\\ &=540^{\circ} \end{aligned}

6. A regular polygon has an interior angle of 165^{\circ}. How many sides does it have?

24
GCSE Quiz True

15
GCSE Quiz False

12
GCSE Quiz False

36
GCSE Quiz False

The interior and exterior angle of a polygon sum to 180^{\circ}. We can find the exterior angle using this fact.

 

\begin{aligned} &\text{Exterior angle }=180-\text{interior angle} \\\\ &\text{Exterior angle }=180-165=15^{\circ} \end{aligned}

 

To find out the number of sides we then do,

 

\text { Number of sides }=360 \div 15=24.

2D shapes GCSE questions

1. The hexagon ABCDEF has one line of symmetry.

 

2D shapes gcse question 1

 

Angle FAB = angle ABC = 110^{\circ}.

Angle AFE = angle BCD.

Angle FED = angle CDE.

Angle CDE : angle BCD = 3 : 2.

 

Find the size of angle AFE .

 

(5 marks)

Show answer

Indicating sum of angles is 720^{\circ} or 540^{\circ} if line of symmetry used to form a pentagon.

(1)

Finding the sum of AFE and FED is 250^{\circ}.

(1)

Use of ratio 3:2 or sight of 3x and 2x.

(1)

Finding x=50.

(1)

Angle AFE = 100^{\circ}.

(1)

2. The perimeter of the rectangle is twice the perimeter of the isosceles triangle.

 

2D shapes gcse question 2

 

Find the area of the rectangle.

 

(5 marks)

Show answer

Correct expression for perimeter of rectangle or triangle,

6x+2 \ , \ 2x+5.

(1)

Forming an equation linking the perimeters.

For example, 6x+2=2(2x+5) or equivalent.

(1)

Solving equation to get x=4.

(1)

Correctly substituted into length and width of rectangle.

(1)

Area given as 42cm^{2}.

(1)

3. The sector has a perimeter 25cm and radius 6cm.

 

2D shapes gcse question 3

Find the size of angle x. Give your answer to 3 significant figures.

 

(3 marks)

Show answer

Sight of arc length given as 13cm.

(1)

Process to use formula \frac{x}{360} \times 2 \times \pi \times 6=13

(1)

x=124^{\circ}

(1)

Learning checklist

You have now learned how to:

  • Identify lines of symmetry and order of rotational symmetry in 2D shapes
  • How to work out the perimeter
  • Work out the area of triangles, quadrilaterals and circles
  • Work out the area of compound shapes
  • Identify and apply circle definitions and properties
  • Calculate the circumference of a circle
  • Calculate the area and arc length of a sector 
  • Distinguish between regular and irregular polygon

The next lessons are

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