Shear magic

Explore the area of families of parallelograms and triangles. Can you find rules to work out the areas?
Exploring and noticing Working systematically Conjecturing and generalising Visualising and representing Reasoning, convincing and proving
Being curious Being resourceful Being resilient Being collaborative

Problem

Shear Magic printable sheet



Shape C is a parallelogram with a base of 2 and a height of 3.

Can you use the two pictures below to work out the area of the parallelogram?

Image
Shear Magic
       
Image
Shear Magic

Here are two more parallelograms made by shearing a rectangle with a base of 2 and a height of 3. 

Can you draw similar diagrams to work out their areas?

Image
Shear Magic
  
Image
Shear Magic

Use the GeoGebra applet below to explore other parallelograms with a base of 2 and a height of 3.

What do you notice? Can you explain it?

Explore other families of parallelograms with a particular base and height, by moving the red and green dots. 

Can you come up with a general rule for working out the area of a parallelogram if you know its base and height? Can you explain why your rule works?

 

I wonder what happens when we shear triangles...

Here is a family of four sheared triangles with a base of 1 and a height of 2.

 

Image
Shear Magic

Can you work out the area of the triangles?

You might like to use the GeoGebra applet below to help.

Explore other families of triangles with a particular base and height. 

Can you come up with a general rule for working out the area of a triangle if you know its base and height?

Can you explain why your rule works?

 

Notes and Background

Shearing is a transformation of a shape in which a particular line (in this case the base of the triangle or parallelogram) remains fixed and all other points in the shape are translated parallel to that line by an amount proportional to the distance from that line.