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Fitting it in

This is a level 2 measurement strand activity from the Figure It Out series. It is focused on measuring volume using multilink cubes. A PDF of the student activity is included.

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Tags

  • AudienceKaiako
  • Learning AreaMathematics and Statistics
  • Resource LanguageEnglish
  • Resource typeActivity
  • SeriesFigure It Out

About this resource

Figure It Out is a series of 80 books published between 1999 and 2009 to support teaching and learning in New Zealand classrooms.

This resource provides the teachers’ notes and answers for one activity from the Figure It Out series. A printable PDF of the student activity can be downloaded from the materials that come with this resource.

Specific learning outcomes:

  • Measure volume using multilink cubes.
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    Fitting it in

    Achievement objectives

    GM2-1: Create and use appropriate units and devices to measure length, area, volume and capacity, weight (mass), turn (angle), temperature, and time.

    Required materials

    • Figure It Out, Level 2–3, Measurement, "Fitting it in", page 8
    • cardboard
    • multilink cubes
    • ruler, scissors, sticky tape

    See Materials that come with this resource to download:

    • Fitting it in activity (.pdf)

    Activity

     | 

    This activity provides a useful connection to the work on nets, which students do in the levels 2-3 Geometry booklet. Encourage them to apply their spatial knowledge to visualise what each box will look like when opened up. This can be rehearsed using grocery packets, if necessary.

    The nets concerned might look like this, though other forms are possible:

    Two cube nets.

    The easiest way to check whether a box can hold 20 Branbix is to follow
    these steps:

    • i. Decide the most efficient positioning of the Branbix so they fit exactly.
    • ii. Work out how many Branbix will fit along each side given the positioning decided on in the first step.
    Two boxes with different volumes.
    • iii. If the length of each side of the box is a multiple of the length of the corresponding side of the Branbix (in the same ratio), then the box is the correct size.

    Many students will need to put their multilink model of the Branbix in a box they have made to help them visualise the suitable positioning and to calculate the number of Branbix their box can hold. Students will often do this by adding layers, such as

    • Ten along the top and ten along the bottom.

    Encourage students to link this layering to multiplication:

    • What if you had five layers? How many Branbix would that be?

    There are many different boxes that will hold 20 Branbix. One way to find them is to work with side factors that have a product of 20.

    For example:

    A 2 x 2 x 5 sized box.

    Based on that, the different positioning of the Branbix will lead to different side lengths:

    Three boxes with different volumes.

    If making boxes for 20 Branbix proves too difficult, tell the students to make up a packet for a hiker’s breakfast, which holds only eight.

    1.

    8 multilink cubes

    2.

    a. Yes, each box will hold exactly 20 Branbix.

    b. Answers will vary depending on the accuracy of the box measurements.

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