D1.5 Analyse different sets of data presented in various ways, including in frequency tables and in graphs with different scales, by asking and answering questions about the data and drawing conclusions, then make convincing arguments and informed decisions.

Skill: Examining and Analysing Data Represented in Various Graphs


The skill to interpret results is related to reasoning in that it requires a certain amount of thinking and analysis. Teachers need to help students develop this skill by providing a variety of activities that focus on interpreting results and by asking questions that encourage students to look closely at those results. In doing so, they will also be contributing to the development of students' data literacy skills.

Gal (2002, p. 1-25) suggests that the interpretation of the results should be done from two perspectives, that of the investigator and that of the reader. From the investigator's perspective, students investigate data that they themselves have collected in an inquiry and summarized in graphs or tables. They then interpret the data in order to answer the question of interest they posed at the beginning of the inquiry. From the reader's perspective, students are investigating data that is externally sourced, that is, collected by others. In this context, educators can take the opportunity to introduce them to data that relate to other subjects (for example, science and technology, social studies, physical education, and health). 

When teachers present a table or graph to students, it is important to allow sufficient time for reflection so that students can investigate the data and form a general idea. Reflecting can be done individually or in small groups. Teachers should then ask open-ended questions to help students translate their observations and ideas into their own words and develop ideas from those of their peers. For example, he or she might ask them:

  • What do you notice about this graph?
  • What is interesting about this graph?
  • What can you say about this data?
  • What can you say about this graph?

These open-ended questions elicit a variety of responses, allowing all students to communicate their observations, descriptions, and conclusions in a general way. Afterwards, teachers can ask more specific questions to help students develop the skill of making sense of data. Understanding and making sense of data involves three levels of comprehension: reading the data, reading between the data, and reading beyond the data.

Level of Comprehension Description of the Level
Reading the data (Level 1) Identify the data as represented by the table or graph.
Reading between the data (Level 2) Compare and combine certain data in order to establish relationships between them.
Reading beyond the data (Level 3) Infer or predict implicit or explicit information from a table or graph and make conclusions.

To foster data literacy, teachers should always ask questions related to all three levels, regardless of the representation or organization of the data. In this way, students can develop independence in interpreting graphs and tables and in using statistical measures.

The following provides a more detailed explanation of each of these three levels, as well as examples of relevant questions that teachers might ask as part of an activity to interpret the results.

Reading the Data

At this first level of comprehension, students are able to identify:

  • the conventions of the representation (for example, the title of the table or graph, the scale or the key, the labelling of the axes, the choice of categories);
  • the value of certain data represented.

Examples of relevant questions:

  • What is this graph about? (The title)
  • How many … in the category? How do we know?
  • How many categories are there?
  • What is the scale on the horizontal axis?
  • What does the vertical axis represent in this graph?
  • What is the largest area?

Reading Between the Data

This level of comprehension requires viewing data less as "an amalgam of personal data each with its own characteristics" and more as "a collective data set with new properties" (Konold & Higgins, 2003). This level of comprehension is more difficult to achieve because students must analyze individual data by combining them or comparing data sets.

At this second level of comprehension, students are able to:

  • compare data using expressions such as more than, less than, as much as, greatest, least, a little more than, three times less than, there is a small difference between;
  • compare the lengths of bars in a bar graph;
  • make connections between different ways of describing a relationship between data;
  • combine some data according to certain categories and compare the frequencies of each category;
  • describe some advantages and disadvantages of two different representations of the same data;
  • determine the value of certain statistical measures (mode, mean) of a set of data.

Reading Beyond the Data 

At this third level of comprehension, students use several critical and analytical thinking skills. They are able to:

  • recognize what the table or graph does not "tell" directly;
  • specify the trend of a data set;
  • make inferences and predictions;
  • draw conclusions and justify them;
  • assess the credibility and logic of predictions and conclusions;
  • assess the representativeness of the mode and mean;
  • review the steps in the inquiry process.

Relevant questions:

  • Do you think that … is the most common in all cities? Why or why not?
  • If the survey is repeated with other response choices, do you think the results will be similar?
  • How could the data be organized to uncover additional information? (For example, by pooling the data for Primary and Junior Division students, we can analyze student preference in general)
  • What other questions can you ask from this graph?

Source: translated from Guide d’enseignement efficace des mathématiques, de la 4e à la 6e année, Traitement des données et probabilité, p. 89-97.

Skill: From a Graph, Drawing Conclusions, Formulating Arguments and Making Decisions


Examining and analyzing data using the three levels of comprehension (reading the data, reading between the data, and reading beyond the data) supports students to draw conclusions, formulate arguments, and make decisions.

Interpretation of the results allows you to draw relevant conclusions to answer statistical questions and make informed decisions.

Source: translated from Guide d’enseignement efficace des mathématiques, de la 4e à la 6e année, Traitement des données et probabilité, p. 89.

Decision-making is very important in the inquiry process because without decision-making, the process is meaningless. Why set up an inquiry and then collect, organize and analyze data if you do not intend to draw conclusions? In many cases, the decision making is limited to providing an answer to the original question. In other cases, it is about using that answer to decide whether to act in a particular direction. Thus, educators need to get students to answer the question of interest that prompted the inquiry or to make a decision based on:

  • the relationships established between the data;
  • the meaning they have made of the data;
  • the conclusions they drew.

Source: translated from Guide d’enseignement efficace des mathématiques, de la 4e à la 6e année, Traitement des données et probabilité, p. 101.