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New Zealand
Level 7 - NCEA Level 2

Perimeter of Circles and Sectors

Lesson

We have already see how to work out the length or distance around the outside of polygons (shapes with straight sides).  Remember it was called perimeter, go here and here for a review.  The perimeter of a circle has a special name, it's called a circumference.  

What is pi?

You have probably heard of a special number in mathematics called Pi, it has the symbol $\pi$π. But what exactly is it? 

Well Pi is a special number that represents the relationship between any circle's circumference and its diameter. 

Let's explore how many diameters fit around the circumference of a circle by using the applet below.  

  • Change the diameter of the circle using the blue dot.  
  • Then roll the circle out along the line.  
  • Once the circle is unravelled you can lay the diameter segments end to end and see how many fit.  

You would have found that that the length of the circumference was always 3 and a bit diameters.  In fact, this value is ALWAYS the same, and we call this constant Pi. 

The number Pi is irrational (and so the decimals go on and on forever), that's why we use the symbol $\pi$π.  

$\pi=3.141$π=3.141 $592653589793238462643383$592653589793238462643383...

Because Pi is irrational, any calculation we do on a calculator with Pi in its decimal form will be an estimate.  A pretty close one, but still not what we would call exact. 

It doesn't matter what the diameter is the relationship between the circumference and diameter is always the same.  

$\pi=\frac{C}{d}$π=Cd

Circumference

The circumference of a circle can be calculated with a special formula. 

To find the formula for the circumference of a circle we will rearrange the ratio we used to find pi  $\pi=\frac{C}{d}$π=Cd to make $C$C the subject.

Circumference of a circle

 

$C=\pi d$C=πd

and because the diameter is twice the radius, we can also write the rule as

$C=2\pi r$C=2πr

What if we don't have an entire circle?  

Well, half a circle would have half the area or half the circumference. One quarter of a circle would have a quarter of the area, or a quarter of the circumference.  In fact all we need to know is what fraction the sector is of a whole circle.  For this all we need to know is the angle of the sector.

Looking at the quarter circle, the angle of the sector is $90$90°. The fraction of the circle is $\frac{90}{360}=\frac{1}{4}$90360=14

More generally, If the angle of the sector is $\theta$θ, then the fraction of the circle is represented by

$fraction=\frac{\theta}{360}$fraction=θ360 (due to there being $360$360° in a circle).

 

Example

Question: Find the perimeter of a sector with central angle of $126$126° and radius of $7$7cm. Evaluate to $2$2 decimal places.  

Think: What fraction is this sector of a whole circle?  What is the rule for circumference? What other lengths do I have to include in the perimeter?

Do:  This sector is $\frac{126}{360}=0.35$126360=0.35 of a circle.

Circumference of a whole circle is $C=2\pi r$C=2πr, so the circumference component of the sector is
$0.35\times2\pi r$0.35×2πr $=$= $0.35\times2\pi\times7$0.35×2π×7
  $=$= $0.35\times14\pi$0.35×14π
  $=$= $4.9\times\pi$4.9×π
  $=$= $15.39$15.39 cm (rounded to $2$2 decimal places)

 

The perimeter is the distance around the outside of the shape, so the perimeter needs to also include the two straight edges (the two radii) of length $7$7cm. 

Total Perimeter = circumference component + $2$2 x radii

Total Perimeter = $15.39+2\times7$15.39+2×7 = $15.39+14=29.39$15.39+14=29.39cm

Worked Examples

Question 1

If the diameter of a circle is $7$7 cm, find its circumference to the nearest integer using the approximation $\pi=\frac{22}{7}$π=227

Question 2

If the radius of a circle is equal to $27$27 cm, find its circumference correct to one decimal place.

Question 3

Calculate the total perimeter of the following figure, correct to one decimal place.

Outcomes

M7-4

Apply trigonometric relationships, including the sine and cosine rules, in two and three dimensions

91259

Apply trigonometric relationships in solving problems

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