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Stage 4 - Stage 5

Median

Lesson

The median is a measure of central tendency. In other words, it's one way of describing a value that represents the middle or the centre of a data set. The median (which kind of sounds like medium) is the middle score in a data set.

Remember!

The data must be ordered (usually in ascending order) to calculate the median.

Which term is in the middle?

Say we have five numbers in our data set: $4$4, $11$11, $15$15, $20$20 and $24$24.

The median would be $15$15 because it is right in the middle. There are two numbers on either side of it.

4, 11, 15, 2024

However, if we have a larger data set, we may not be able to see straight away which term is in the middle. There are two methods we can use to help us work this out.

The "cross out" method

Basically, once your data is ordered, you can cross out a high number and a low number until you only have one number left. Let's check out this process using an example. Here is a data set with nine numbers: $1$1, $1$1, $3$3, $5$5, $7$7, $9$9, $9$9, $10$10, $15$15.

1. Check all your numbers are in ascending order (ie. in order from smallest to largest).

2. Cross the smallest and the largest number out like so:

3. Repeat the process from step 2, making sure you work from the outside in, taking the smallest number and the largest number each time until you have one term left. We can see in this example that the median is 7.

NB. You will only be left with one term if there are an odd number of terms to start with. If there are an even number of terms, you will be left with two terms (if you cross them all out, you've gone too far)! All you need to do if find the average of these two terms.

Working out the middle term

You can also work out which term will be the middle number using the following formula:

Let $n$n be the number of terms:

$\text{middle term }=\frac{n+1}{2}$middle term =n+12th term

 So if we use the same set of numbers from the previous example:

 $1$1, $1$1, $3$3, $5$5, $7$7, $9$9, $9$9, $10$10, $15$15, there are nine numbers in the set. So to work out which value is in the middle:

$\text{middle term }$middle term $=$= $\frac{9+1}{2}$9+12
  $=$= $5$5
This means the fifth term will be the median: $1$1, $1$1, $3$3, $5$5, 7, $9$9, $9$9, $10$10, $15$15.

So again, we find that the median is $7$7.

Let's try that with an even number of terms. Let's look at this data set with four terms: $8$8, $12$12, $17$17, $20$20.

$\text{middle term }$middle term $=$= $\frac{4+1}{2}$4+12
  $=$= $2.5$2.5th term

But what is the $2.5$2.5th term?? Just like using the "cross out" method, the $2.5$2.5th term means the average between the second and the third term. Again, remember your data must be in order before you count the terms. So in this example, the median will be the average of $12$12 and $17$17.

$\text{median }$median $=$= $\frac{12+17}{2}$12+172
  $=$= $14.5$14.5
 

Worked Examples

Question 1

Find the median from the frequency distribution table:

Score Frequency
$23$23 $2$2
$24$24 $26$26
$25$25 $37$37
$26$26 $24$24
$27$27 $25$25

QUESTION 2

Write down $4$4 consecutive odd numbers whose median is $40$40.

  1. Write all solutions on the same line separated by a comma.

QUESTION 3

Determine the following using the histogram:

ScoreFrequency5101520254445464748

A bar graph that represents the distribution of scores. The x-axis is titled "Score" and ranges from $44$44 to $48$48 labeled in intervals of 1. The y-axis is titled "Frequency" and ranges from 5 to 25, labeled in major intervals of 5 and minor intervals of 1. The height of the column for score $44$44 is $20$20. The height of the column for score $45$45 is $17$17. The height of the column for score $46$46 is $6$6. The height of the column for score $47$47 is $11$11. The height of the column for score $48$48 is $13$13. The frequency of each score is in the graph but not explicitly labeled.

 

  1. The total number of scores.

  2. The median.

 

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