Bigger triangles

Achievement objectives

GM4-3: Use side or edge lengths to find the perimeters and areas of rectangles, parallelograms, and triangles and the volumes of cuboids.

GM4-8: Use the invariant properties of figures and objects under transformations (reflection, rotation, translation, or enlargement).

Supplementary achievement objectives

NA4-8: Generalise properties of multiplication and division with whole numbers.

Required materials

See Materials that come with this resource to download:

• Bigger triangles activity (.pdf)

Activity

• If a triangle is enlarged by scale factor 2, what is its increase in area?
• What if the scale factor was 3?
• What if the scale factor was n?

The following prompts illustrate how this activity can be structured around the phases of the mathematics investigation cycle.

Make sense

Introduce the problem. Allow students time to read it and discuss it in pairs or small groups.

• Do I understand the situation? (Students may need support to understand the meaning of enlargement, especially the use of the scale factor. The scale factor is the multiplier that maps side lengths in the original figure to corresponding side lengths in the image.)
• Will it matter which triangles I try? (equilateral, right-angled, scalene, etc.) Will that make a difference to what happens to the area?
• Can I visualise what the change in area might be for a scale factor of 2 using the picture? How will my image change with a scale factor of 3?
• What will a solution look like? (A rule for changing the area of a triangle as the scale factor changes.)

Plan approach

Discuss ideas about how to solve the problem. Emphasise that, in the planning phase, you want students to say how they would solve the problem, not to actually solve it.

• What strategies can I use to get started? (Drawing on squared paper is a good first step to generate examples.)
• What examples will be best to try first?
• What mathematics am I going to need? (Finding the area of triangles is required.)
• Do I expect there to be a pattern?
• How will I record it to make the pattern visible?
• What tools (digital or physical) could help my investigation?

Take action

Allow students time to work through their strategy and find a solution to the problem.

• Have I tried many examples of triangles with different scale factors?
• How can I be sure my calculations of area were correct?
• Did I record my data in an organised way?
• Have I got enough examples? What other examples would be useful?
• Do I see a pattern? How might I describe the pattern I see?
• Could I draw diagrams of triangles to confirm the pattern? (Partitioning the image triangle into units of the original triangle is helpful.)
• Do I have a rule connecting scale factor and area?

Convince yourself and others

Allow students time to check their answers, and then either have them pair share with other groups or ask for volunteers to share their solution with the class.

• What is my solution? 
• Are my workings clear for someone else to follow?
• How would I convince someone else that I am correct?
• What is the best way to express my solution?
• Are there examples that my rule doesn’t work for?
• Could I use algebra to prove that my rule always holds?
• What connections can I see to other situations, and why would this be? (Does varying the original image effect the change in area?)
• What mathematics have I learned? What mathematics do I need to learn more about?