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Exam-Style Questions.

Problems adapted from questions set for previous Mathematics exams.

1.

GCSE Higher

This Cumulative Frequency graph shows the heights of 58 Scouts. Work out an estimate for the number of these Scouts with a height greater than 160cm.

Diagram

2.

GCSE Higher

The grouped frequency table gives information about the times, in minutes, that 90 commuters take to get home from work.

Time (t minutes)Frequency
\(0 \lt t \le 10\)6
\(10 \lt t \le 20\)32
\(20 \lt t \le 30\)22
\(30 \lt t \le 40\)10
\(40 \lt t \le 50\)10
\(50 \lt t \le 60\)7
\(60 \lt t \le 70\)3

(a) Complete the cumulative frequency table.

Time (t minutes)Cumulative frequency
\(0 \lt t \le 10\)
\(0 \lt t \le 20\)
\(0 \lt t \le 30\)
\(0 \lt t \le 40\)
\(0 \lt t \le 50\)
\(0 \lt t \le 60\)
\(0 \lt t \le 70\)

(b) On the grid, draw the cumulative frequency graph for this information.

Graph paper

(c) Use your graph to find an estimate for the percentage of these commuters who take more than 45 minutes to get home from work.


3.

GCSE Higher

The table shows information about the heights of 85 stalagmites.

Height (\(h\) cm) Frequency
\(10\lt h \le 15\)9
\(15\lt h \le 20\)13
\(20\lt h \le 25\)18
\(25\lt h \le 30\)22
\(30\lt h \le 35\)15
\(35\lt h \le 40\)8

(a) Find the class interval that contains the median.

(b) On the grid below, draw a frequency polygon for the information in the table.

Graph Paper

4.

GCSE Higher

(a) The list shows 18 temperatures, in degrees Celsius, at 2pm on different days in Honeyville.

19 23 23 16 22 18 29 18 23
24 16 23 20 25 23 27 27 23

(i) Construct a stem-and-leaf diagram to show this information.

(ii) Find the median.

(iii) Find the lower quartile.

(iv) Graham draws a pie chart to show this information.

Calculate the sector angle for the number of days the temperature is 23°C.

(b) The box-and-whisker plot shows information about the masses, in grams, of some stones.

Box Plot

(i) Find the median.

(ii) Find the range.

(iii) Find the interquartile range.

(c) (i) The time, \( t \) minutes, spent exercising in one week by each of 184 students is recorded. The table shows the results.

$$ \begin{array}{|c|c|} \hline \text{Time } (t \text{ minutes}) & \text{Frequency} \\ \hline 40 < t \leq 60 & 5 \\ 60 < t \leq 80 & 12 \\ 80 < t \leq 90 & 55 \\ 90 < t \leq 100 & 90 \\ 100 < t \leq 150 & 22 \\ \hline \end{array} $$

Calculate an estimate of the mean.

(ii) A new table with different class intervals is completed.

$$ \begin{array}{|c|c|} \hline \text{Time } (t \text{ minutes}) & \text{Frequency} \\ \hline 40 < t \leq 90 & 72 \\ 90 < t \leq 150 & 112 \\ \hline \end{array} $$

On a histogram the height of the bar for the \( 40 < t \leq 90 \) interval is 7.2 cm.

Calculate the height of the bar for the \( 90 < t \leq 150 \) interval.


5.

GCSE Higher

The distance walked by each of 68 hikers was recorded. The results are shown in the cumulative frequency curve.

Cumulative Frequency Graph

(a) Estimate the median.

(b) Estimate the interquartile range.

(c) Use the curve to complete the frequency table.

Distance(\(d\) km)0 < d ≤ 5 5 < d ≤1010 < d ≤ 1515 < d ≤ 20 20 < d ≤ 25 25 < d ≤ 3030 < d ≤ 35
Frequency515

(d) Write down the modal class.

(e) Calculate an estimate for the mean.


6.

GCSE Higher

The table shows the marks earned by 200 students taking a Maths exam.

Mark (n) \(0\lt n \le 10\) \(10\lt n \le 20\) \(20\lt n \le 30\) \(30\lt n \le 40\) \(40\lt n \le 50\) \(50\lt n \le 60\) \(60\lt n \le 70\) \(70\lt n \le 80\)
Frequency 3 7 33 42 54 35 20 6

(a) Use the data in the table above to complete the following cumulative frequency table

Mark (n) \(n \le 10\) \(n \le 20\) \(n \le 30\) \(n \le 40\) \(n \le 50\) \(n \le 60\) \(n \le 70\) \(n \le 80\)
Cumulative Frequency               200

(b) Draw the cumulative frequency curve on graph paper.

The top 5% of students will receive an A grade. The next 15% of students will receive a B grade and the next 30% will receive a C grade.

(c) Use your graph to estimate the lowest mark that B grade will be awarded for.


7.

GCSE Higher

The table shows the amount of time, in months, taken to sell houses on the Happyland housing estate.

Time (m months) Frequency
0 < m ≤ 2 10
2 < m ≤ 5 21
5 < m ≤ 10 25
10 < m ≤ 15 20
15 < m ≤ 20 25

(a) Draw a histogram for the information in the table.

(b) Find an estimate for the median.


8.

GCSE Higher

This histogram shows information about the ages of 317 people attending a charity concert. The cost of tickets for children under 15 years of age are half price. If a full price ticket was £18, estimate the total income of all 317 ticket sales.

Diagram

9.

GCSE Higher

The histogram gives information about the times 475 kittens took to get over an obstacle.

Histogram

Calculate an estimate for the mean time.


10.

IB Analysis and Approaches

A TV company surveyed 88 of its employees to find out how much time they spend travelling to work on a given day. The results of the survey are shown in the following cumulative frequency diagram.

Cumulative Frequency Diagram

(a) Find the median number of minutes spent travelling to work.

(b) Find the interquartile range.

(c) Find the number of employees whose travelling time is within 20 minutes of the median.

(d) Only 10% of the employees spent less than k minutes travelling to work. Find the value of k.

The results of the survey can also be displayed on the following box-and-whisker diagram.

Box Plot

(e) Write down the value of a.

(f) Find the value of b.

(g) Travelling times of less than p minutes are considered outliers. Find the value of p .


11.

IB Studies
Cumulative Frequency Graph

This cumulative frequency graph shows the speeds in kmh-1 of cyclists passing a certain point on a race track.

(a) Estimate the minimum possible speed of one of these cyclists.

(b) Find the median speed of the cyclists.

(c) Write down the 65th percentile.

(d) Calculate the interquartile range.

(e) Find the number of these cyclists that were travelling faster than 22 kmh-1

The table shows the speeds of these cyclists.

Speed of Cyclists (s)Number of Cyclists
\(0 \lt s \le 5\)0
\(5 \lt s \le 10\)\(a\)
\(10 \lt s \le 15\)8
\(15 \lt s \le 20\)20
\(20 \lt s \le 25\)16
\(25 \lt s \le 30\)5
\(30 \lt s \le 35\)\(b\)

(f) Find the value of \(a\) and of \(b\)

(g) Write down the modal class.

(h) Write down the mid-interval value for the modal class.

(i) Use your graphic display calculator to calculate an estimate of the mean speed of these cyclists.

(j) Use your graphic display calculator to calculate an estimate of the standard deviation of the speeds of these cyclists.


12.

IB Analysis and Approaches

Gringe Hull Secondary School has students from Year 7 to Year 13. A group of 138 students in Year 9 were randomly selected and surveyed to find out how long it takes them to travel to school each morning. Their results are represented by the following cumulative frequency graph.

Cumulative frequency graph

(a) Find the median number of minutes per day these Year 9 students spend travelling to school.

(b) Given that 20% of these Year 9 students spend more than \(k\) minutes per day travelling to school, find value of \(k\).

The same information is represented by the following table.

Travelling time (m) in minutes Frequency
0 < m ≤ 5 4
5 < m ≤ 10 10
10 < m ≤ 15 14
15 < m ≤ 20 \(p\)
20 < m ≤ 25 22
25 < m ≤ 30 21
30 < m ≤ 35 16
35 < m ≤ 40 \(q\)
40 < m ≤ 45 9
45 < m ≤ 50 6
50 < m ≤ 55 3
55 < m ≤ 60 1

(c) Find the value of \(p\) and the value of \(q\).

There are 450 students in Year 9 at this school.

(d) Estimate the number of Year 9 students that spend less than 15 minutes travelling to school each day.


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The exam-style questions appearing on this site are based on those set in previous examinations (or sample assessment papers for future examinations) by the major examination boards. The wording, diagrams and figures used in these questions have been changed from the originals so that students can have fresh, relevant problem solving practice even if they have previously worked through the related exam paper.

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