Half as an operator

The purpose of this activity is to support students to understand that multiplication can be applied to find fractions of a whole number. We begin with the simplest fraction, one half.

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About this resource

New Zealand Curriculum: Level 3

Learning Progression Frameworks: Multiplicative thinking, Signpost 6 to Signpost 7

These activities are intended for students who have some previous experience with equal partitioning, such as finding lines of symmetry in shapes. It is preferable that they are also able to call on and apply their knowledge of addition and multiplication facts.

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Half as an operator

Achievement objectives

NA3-1: Use a range of additive and simple multiplicative strategies with whole numbers, fractions, decimals, and percentages.

NA3-5: Know fractions and percentages in everyday use.

Required materials

counters, tiles or cubes, paper, and pens

Activity

Ask students to create a set of eight objects (counters, tiles, etc.).

You are going to get one half of your set of counters. How many counters will you get?

Due to 4 + 4 = 8 being an accessible doubles fact, students are likely to anticipate the answer easily. If not, distribute the counters equally on a large area model for one half.

Eight red counters are distributed evenly inside a circle: four counters on one half of the circle and the other half on the other side of the circle.

Model how to record the operation as an equation and connect each symbol to its meaning:

1/2 x 8 = 4. You might also introduce relevant te reo Māori kupu, such as whakarea (multiply, multiplication) and whakawehe (divide, division).

What does 1/2 refer to? (the fraction of the set you received)
What does 8 refer to? (the whole set)
What does 4 refer to? (the result of finding 1/2 of 8)
What does the x symbol mean? ("of" as in 1/2 of 8)
What does the = symbol mean? ("the same" as in 1/2 of 8 is the same number as 4)

Pose similar halving problems about finding one half of different numbers of counters. The aim is for students to develop:

anticipation of the result without the need to physically distribute the set
more use of division by two to calculate answers
independent recording of the equations with an understanding of the meaning of symbols.

Good examples are:

You are going to get one half of your set of counters. How many counters will you get?
Start with a set of 18.
Start with a set of 30.
Start with a set of 24.
Start with a set of 100.
Start with a set of 50.
Start with a set of 48.

Allow students to work in groupings that will encourage peer scaffolding and extension. Some students might benefit from working independently, while others might need further support from the teacher. Consider also the different means of action and expression (e.g., verbal, written, digital, or physical) that your students might use to demonstrate their thinking.

Next steps

Increase the level of abstraction by progressing from using a physical model of equally distributing the set into two parts to using number knowledge to anticipate the result.

Encourage students to use one result to get another. For example:

If one half of 10 equals 5 (1/2 x 10 = 5), what is one half of 14?
If one half of 20 equals 10 (1/2 x 20 = 10), what is one half of 14?
If one half of 30 equals 15 (1/2 x 30 = 15), what is one half of 32?
If one half of 100 equals 50 (1/2 x 100 = 50), what is one half of 106?
If one half of 50 equals 25 (1/2 x 50 = 25), what is one half of 46?

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