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13.06 Quartiles

Worksheet
Quartiles
1

Find the lower quartile for each of the following data set of scores:

a

2, 10, 28, 35, 50

b

31, 32, 34, 42, 49, 50

c

41, 42, 43, 44, 49, 50, 51, 53, 58

d

21, 23, 26, 31, 34, 38, 42, 47, 48, 49

2

Find the upper quartile for each of the following data set of scores:

a

8, 9, 11, 12, 13, 15

b

3, 4, 6, 7, 7, 8, 12, 14

c

5,7,12,14,15,22,24,30

d

7, 8, 9, 12, 18, 21, 31, 33, 35

3

For each of the following sets of scores:

i

Sort the scores in ascending order.

ii

Find the number of scores.

iii

Find the median.

iv

Find the lower quartile of the set of scores.

v

Find the upper quartile of the set of scores.

vi

Find the interquartile range.

a

40, 39, 15, 17, 10, 6, 24

b

- 4 , - 6 , - 1 , 7, 9, 7, 9

c

8, 20, 19, 4, 15, 14, 10

d

42, 28, 22, 40, 20, 54, 32, 43

e

84, 85, 79, 71, 69, 88, 82, 78

f

102, 115, 110, 113, 100

g

228, 205, 198, 202, 207, 197

h

19, 29, 55, 22, 15, 46, 35, 9, 27, 40

4

Consider the following data set containing 30 scores:

10, 13, 15, 24, 32, 42, 46, 53, 58, 64

11, 14, 16, 27, 33, 42, 49, 53, 60, 67

11, 15, 18, 28, 37, 44, 51, 55, 61, 67

a

Find the median.

b

Find the interquartile range.

5

Find the interquartile range for the following data set containing 20 scores:

5, 8, 11, 12, 12, 14, 15, 15, 18, 18, 19, 21, 21, 25, 29, 32, 33, 37, 38, 38

6

For each of the following data sets:

i

Find the total number of scores.

ii

Find the median.

iii

Find the lower quartile of the set of scores.

iv

Find the upper quartile of the set of scores.

v

Find the interquartile range.

a

33, 38, 50, 12, 33, 48, 41

b

- 3 , - 3 , 1, 9, 9, 6, - 9

c
Leaf
22\ 5\ 6\ 7\ 9
30\ 0\ 5\ 6\ 8
40\ 0\ 1\ 8\ 9

Key: 1 | 2 = 12

d
Leaf
21\ 3\ 4\ 6\ 9
31\ 2\ 2\ 2\ 6
42\ 3\ 5\ 6\ 7

Key: 1\vert 2 = 12

e
ScoreFrequency
53
133
162
282
313
384
482
f
ScoreFrequency
51
141
183
242
321
382
505
g
7

Consider the dot plot below:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

d

What is the range of this data set?

8

If there are 78 scores in a set of data, in which position will the lower quartile lie?

Applications
9

The following list shows the number of points scored by a basketball team in each game of their previous season:

59,\, 67,\, 73,\, 82,\, 91,\, 58,\, 79,\, 88,\, 69,\, 84,\, 55,\, 80,\, 98,\, 64,\, 82
a

State the maximum value.

b

State the minimum value.

c

Find the median value.

d

Find the lower quartile score.

e

Find the upper quartile score.

10

The following data set shows Ray's scores from her last 13 rounds of golf played:

66, 66, 68, 68, 70, 78, 80, 84, 106, 116, 126, 130, 132

a

Find her median score.

b

Find the lower quartile score.

c

Find the upper quartile score.

d

Find the interquartile range.

11

The following data set shows Luke's scores from his last 17 exams:

42, 46, 48, 51, 52, 54, 56, 68, 72, 76, 78, 82, 85, 86, 88, 92, 96

a

Find his median score.

b

Find the lower quartile score.

c

Find the upper quartile score.

d

Find the interquartile range.

12

There is a test to measure the Emotional Quotient (EQ) of an individual. Here are the EQ results for 21 people listed in ascending order:

90,\, 90,\, 91,\, 92,\, 93,\, 94,\, 95,\, 95,\, 95,\, 97,\, 99,\, 100,\, 108,\, 114,\, 116,\, 116,\, 117,\, 118,\, 118,\, 122,\, 129

a

Find the median EQ score.

b

Find the upper quartile score.

c

Find the lower quartile score.

d

Find the interquartile range.

13

In a competition, a contestant must complete 12 challenges earning as many points as possible. Her scores for the first 11 challenges are:

38, 43, 45, 66, 67, 82, 92, 102, 105, 108, 119

Determine her score in the 12th round if the lower quartile of all of her 12 scores is 55.

14

The stem-and-leaf plot shows the number of hours students spent studying during an entire semester:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

Leaf
62\ 7
71\ 2\ 2\ 4\ 7\ 9
80\ 1\ 2\ 5\ 7
90\ 1

Key: 5\,\vert\,2\,=\,52

15

The dot plot shows the ages of customers in a mobile phone store in one day:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

16

The dot plot shows the number of sit-ups achieved by 25 students in a physical education exam:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

17

Below is the luggage weight of 30 passengers:

a

Find the mean luggage weight to two decimal places.

b

Determine the following in kilograms:

i

Median

ii

Lower Quartile

iii

Upper Quartile

c

In which quartile does the mean lie?

WeightFrequency
164
175
185
193
204
216
223
18

A group of students were asked how many phone calls they had made the previous day. The information was collected in the following frequency table:

a

How many students were surveyed?

b

Find the range of the data.

c

Find the interquartile range.

Phone callsFrequency
08
15
210
36
46
57
63
72
19

A sample of boxes of matches were selected for quality control and the number of matches in each box recorded in the given frequency table:

a

How many matchboxes were sampled?

b

Find the range of the data.

c

Find the interquartile range.

MatchesFrequency
451
462
475
483
497
5025
516
522
20

A group of students were asked how many phone calls they had made the previous day. The information was collected in the given frequency table:

a

How many students were surveyed?

b

Find the range of the data.

c

Find the interquartile range.

Phone callsFrequency
08
15
210
36
46
57
63
72
21

Consider the following bar chart:

a

Organise the data into a frequency table.

b

Find the median score using the distribution table.

c

Find the lower quartile score.

d

Find the upper quartile score.

e

Find the interquartile range.

22

The column graph shows the number of pets that each student in a class owns:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

23

Dylan records the number of fish he catches for each fishing trip over a period of time:

a

How many fishing trips did he go on?

b

Find the range in the number of fish caught.

c

Find the interquartile range.

24

The bar graph shows the marks (out of 10) that students received on a spelling test:

a

Find the lower quartile of the set of scores.

b

Find the upper quartile of the set of scores.

c

Find the interquartile range.

d

Explain the effect the scores less than 7 have on the summary statistics.

25

The stem-and-leaf plot shows the batting scores of two cricket teams, A and B:

a

What is the median score of Team A?

b

What is the median score of Team B?

c

What is the range of Team A’s scores?

d

What is the range of Team B’s scores?

e

What is the interquartile range of Team A’s scores?

f

What is the interquartile range of Team B’s scores?

g

Explain the differences between Team A and Team B's distribution of scores.

Plot title
Team ATeam B
6\ 5\ 460\ 5\ 8
8\ 5\ 4\ 071\ 5\ 7
8\ 682\ 3\ 7\ 9
92\ 5

Key: 6\,\vert \,1\,\vert\, 2 =\, 12 \,and\,16

26

A data set has the following known statistics:

MedianModeRangeIQR
128187

Find the new value for each of the statistics above, given each value of the data set was:

a

Increased by 5.

b

Multiplied by 2.

27

To gain a place in the main race of a car rally, teams must compete in a qualifying round. The median time in the qualifying round determines the cut off time to make it through to the main race. Below are some results from the qualifying round:

  • 75\% of teams finished in 159 minutes or less.

  • 25\% of teams finished in 132 minutes or less.

  • 25\% of teams finished between with a time between 132 and 142 minutes.

a

Find the cut off time required in the qualifying round to make it through to the main race.

b

Find the interquartile range in the qualifying round.

c

In the qualifying round, the ground was wet, while in the main race, the ground was dry. To make the times more comparable, the finishing time of each team from the qualifying round is reduced by 5 minutes.

Find the new median time from the qualifying round.

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Outcomes

MA5.2-10NA

connects algebraic and graphical representations of simple non-linear relationships

MA5.2-15SP

uses quartiles and box plots to compare sets of data, and evaluates sources of data

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