Get Kids Into Maths By Letting Them Figure Out The Answers Themselves

A common view is that students learn maths best when teachers give clear explanations of mathematical concepts, usually in isolation from other concepts and students are then given opportunities to practise what they have been shown. I’ve recently undertaken research at primary and junior secondary levels exploring a different approach.

pictureKids maths from Shutterstock

This approach involves posing questions like the following:

The minute hand of a clock is on two, and the hands make an acute angle. What might be the time?

and expecting students (in this case, primary level) to work out their own approaches to the task for themselves prior to any instruction from the teacher.

There are three ways that this question is different from conventional questions. First, it focuses on two aspect of mathematics together, time and angles. Contrasting two concepts helps students see connections and move beyond approaching mathematics as a collection of isolated facts.

Second, the question has more than one correct answer. Having more than one correct answer means students have opportunities to make decisions about their own answer and then have something unique to contribute to discussions with other students.

Third, students can respond at different levels of sophistication: some students might find just one answer, while other students might find all of the possibilities and formulate generalisations.

Traditional maths (with a twist)

The task is what is described as appropriately challenging. The solutions and solution pathways are not immediately obvious for middle primary students but the task draws on ideas with which they are familiar. An explicit advantage of posing such challenging tasks is that the need for students to apply themselves and persist is obvious to the students, even if the task seems daunting at first.

After the students have worked on the task for a time, the teacher manages a discussion in which students share their insights and solutions. This is an important opportunity for students to see what other students have found, and especially to realise that in many cases there are multiple ways of solving mathematics problems.

It is suggested to teachers that they use a data projector or similar technology to project students’ actual work. This saves time rewriting the work, presents the students’ work authentically and illustrates to students the benefits of writing clearly and explaining thinking fully.

Subsequently, the teacher poses a further task in which some aspects are kept the same and some aspects changed, such as:

The minute hand of a clock is on eight, and the hands make an obtuse angle. What might be the time?

The intention is that students learn from the thinking activated by working on the first task and from the class discussion, then apply that learning to the second task.

The research aims to identify tasks that not only are appropriately challenging but can be adapted to suit the needs of particular students. For example, there may be some students for whom the first task is too difficult. Those students might be asked to work on a question like:

What is a time at which the hands of a clock make an acute angle?

The intention is that those students then have more chance of engaging with the original task. Of course, there are also students who can find answers quickly and are then ready for further challenges. Those students might be posed questions like:

With the minute hand on two, why are there six times for which the hands make an acute angle? Is there a number to which the minute hand might point for which there are not six possibilities?

There might even be advanced students who could be asked:

What are some times for which the hands on a clock make a right angle?

The combination of the students’ own engagement with the problem and the different levels of prompts means the students’ work contains rich and useful information about what the students know. Teachers can use this not only to give the students feedback but also to plan subsequent teaching.

Students welcomed the challenge

The project found that, contrary to the preconceptions of some teachers, many students do not fear challenges in mathematics but welcome them. Rather than preferring teachers to instruct them on solution methods, many students prefer to work out solutions by themselves or by working with other students.

The project also established that students learn substantive mathematics content from working on challenging tasks and are willing and able to develop ways of articulating their reasoning.

The ConversationPeter Sullivan is Professor of Science, Mathematics and Technology Education at Monash University.

This article was originally published on The Conversation.


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