Vertical line chart construction

A question is this type if and only if it asks to construct a vertical line chart (bar chart for discrete data) from a frequency table.

9 questions

OCR MEI S1 2007 January Q2
2 The numbers of absentees per day from Mrs Smith’s reception class over a period of 50 days are summarised below.
Number of absentees0123456\(> 6\)
Frequency8151183410
  1. Illustrate these data by means of a vertical line chart.
  2. Calculate the mean and root mean square deviation of these data.
  3. There are 30 children in Mrs Smith's class altogether. Find the mean and root mean square deviation of the number of children who are present during the 50 days.
OCR MEI S1 2006 June Q1
1 Every day, George attempts the quiz in a national newspaper. The quiz always consists of 7 questions. In the first 25 days of January, the numbers of questions George answers correctly each day are summarised in the table below.
Number correct1234567
Frequency1233475
  1. Draw a vertical line chart to illustrate the data.
  2. State the type of skewness shown by your diagram.
  3. Calculate the mean and the mean squared deviation of the data.
  4. How many correct answers would George need to average over the next 6 days if he is to achieve an average of 5 correct answers for all 31 days of January?
OCR MEI S1 2007 June Q5
5 A GCSE geography student is investigating a claim that global warming is causing summers in Britain to have more rainfall. He collects rainfall data from a local weather station for 2001 and 2006. The vertical line chart shows the number of days per week on which some rainfall was recorded during the 22 weeks of summer 2001.
\includegraphics[max width=\textwidth, alt={}, center]{5e4f3310-b96e-43db-9b6d-61da3270db06-4_720_1557_443_296} Number of days per week with rain recorded in summer 2001
  1. Show that the median of the data is 4 , and find the interquartile range.
  2. For summer 2006 the median is 3 and the interquartile range is also 3. The student concludes that the data demonstrate that global warming is causing summer rainfall to decrease rather than increase. Is this a valid conclusion from the data? Give two brief reasons to justify your answer.
OCR MEI S1 Q4
4 The numbers of absentees per day from Mrs Smith's reception class over a period of 50 days are summarised below.
Number of absentees0123456\(> 6\)
Frequency8151183410
  1. Illustrate these data by means of a vertical line chart.
  2. Calculate the mean and root mean square deviation of these data.
  3. There are 30 children in Mrs Smith's class altogether. Find the mean and root mean square deviation of the number of children who are present during the 50 days.
OCR MEI S1 Q2
2 In a traffic survey, the number of people in each car passing the survey point is recorded. The results are given in the following frequency table.
Number of people1234
Frequency5031165
  1. Write down the median and mode of these data.
  2. Draw a vertical line diagram for these data.
  3. State the type of skewness of the distribution.
OCR MEI S1 Q5
5 In a traffic survey, the number of people in each car passing the survey point is recorded. The results are given in the following frequency table.
Number of people1234
Frequency5031165
  1. Write down the median and mode of these data.
  2. Draw a vertical line diagram for these data.
  3. State the type of skewness of the distribution.
OCR MEI S1 2009 June Q1
1 In a traffic survey, the number of people in each car passing the survey point is recorded. The results are given in the following frequency table.
Number of people1234
Frequency5031165
  1. Write down the median and mode of these data.
  2. Draw a vertical line diagram for these data.
  3. State the type of skewness of the distribution.
OCR MEI AS Paper 2 2022 June Q5
5 Ali collected data from a random sample of 200 workers and recorded the number of days they each worked from home in the second week of September 2019. These data are shown in Fig. 5.1. \begin{table}[h]
Number of days worked from home012345
Frequency416533262015
\captionsetup{labelformat=empty} \caption{Fig. 5.1}
\end{table}
  1. Represent the data by a suitable diagram.
  2. Calculate
    • The mean number of days worked from home.
    • The standard deviation of the number of days worked from home.
    Ali then collected data from a different random sample of 200 workers for the same week in September 2019. The mean number of days worked from home for this sample was 1.94 and the standard deviation was 1.75.
  3. Explain whether there is any evidence to suggest that one or both of the samples must be flawed. Fig. 5.2 shows a cumulative frequency diagram for the ages of the workers in the first sample who worked from home on at least one day. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{e0b502a8-c742-4d78-993c-8c0c7329ec9c-04_671_1362_1452_241} \captionsetup{labelformat=empty} \caption{Fig. 5.2}
    \end{figure} Ali concludes that \(90 \%\) of the workers in this sample who worked from home on at least one day were under 60 years of age
  4. Explain whether Ali's conclusion is correct.
OCR MEI AS Paper 2 2023 June Q1
1 A researcher collects data concerning the number of different social media platforms used by school pupils on a typical weekday. The frequency table for the data is shown below.
Number of different social media platforms01234567
Frequency259158541
The researcher uses software to represent the results in this diagram.
\includegraphics[max width=\textwidth, alt={}, center]{82438df0-6550-4ffd-92d8-3c67bec59a6b-04_961_1195_737_242}
  1. Explain why this diagram is inappropriate.
  2. Calculate the following for the number of social media platforms used:
    1. the mean,
    2. the standard deviation.