Vege rows

Achievement objectives

NA3-3: Know counting sequences for whole numbers.

NA3-8: Connect members of sequential patterns with their ordinal position and use tables, graphs, and diagrams to find relationships between successive elements of number and spatial patterns.

Required materials

See Materials that come with this resource to download:

• Vege rows activity (.pdf)

Activity

A gardener has a triangular patch of dirt that she wants to plant broccoli seedlings in.

If she spaces the seedlings correctly, she can fit twelve rows, with one seedling in the first row, four seedlings in the next, seven in the next, and so on.

• How many broccoli seedlings can she plant?

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 and the words? (Students may need to lay out a few rows of "make-believe" seedlings to understand how the pattern grows.)
• Do I expect there to be an easy way to count the total number of seedlings? What comes to mind as an easy way?
• Have I seen a problem like this before? Where? What maths came in handy with that problem?
• What will my solution look like? (The solution will be the total number of seedlings, supported by a justification that the number is correct.)

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 will be useful to solve a problem like this? A diagram or physical model will be helpful but could be inefficient and not use the pattern. A table of values is likely to be very powerful in spotting patterns and relationships.
• How will I look for a relationship between the number of seedlings in one row compared to the one before?
• Can I predict the number of seedlings in the 12th row without drawing it or continuing the table?
• 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.

• Am I showing my workings in a step-by-step way?
• How is the pattern helping me to work more efficiently?
• How can I express the relationships I found using words and symbols? (Including tables.)
• How do my results look different or different to others? Why could this be?
• Do others have efficient ways to solve the problem? What makes those ways more efficient?
• What is my answer?

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.

• Can I state my solution clearly?
• Are my workings clear for someone else to follow?
• Can I justify what I found using mathematical language and symbols?
• Did I try enough rows in the pattern to be confident in my rule?
• Is my rule expressed in a mathematical way? 
• How would I convince someone else that I am correct?
• How can I be sure that my way of adding the number of seedlings is correct?
• What tools and strategies were helpful?