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Activity 1:
To investigate and compare three-dimensional objects from the environment according to geometrical properties by making three-dimensional models using cut-out polygons
[LO 2.1, 3.2, 3.4, 3.5, 4.8]
1. Investigating nets: boxes.
You need a cornflake box, a box that contained tea and other boxes. Carefully open the boxes where they were glued so that they can be laid flat on the table. Examine the plan or net of the box.
2. Before you cut out the net below, fill in the dots for a dice on each face. Then cut out the net, fold it into a cube and stick it with sticky tape. Look at a real dice to see if your numbers are correct.
3. Cut out the shape below the table and fold it into a tetrahedron (a pyramid) with three sides and a triangular base.
4. Now use the net of the cornflake box (rectangular prism), the cube that you have cut out and the tetrahedron to complete the table:
| Object | Number of surfaces | Flat or curved surfaces (faces) | Number of corners (vertices) | Number of edges |
| Rectangular prism | ||||
| Cube | ||||
| Tetrahedron |
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Activity 2:
To recognise and describe lines of symmetry in two-dimensional shapes including those in nature and its cultural art forms
[LO 3.4]
1. PROJECT.
2. Shapes.
2.1 Cut out the shapes below. See if each of them can be folded in half. The fold is called a LINE OF SYMMETRY. Use a ruler to make a dotted line on the fold. Some shapes have more than one line of symmetry. Remember that both halves must be identical. Draw in all the lines of symmetry and paste the shapes on top of the shapes on this page. Label your lines of symmetry.
2.2 Make other shapes, e.g. a circle, and fold them to find lines of symmetry. Paste them on the clean sheet as well. Label the lines of symmetry.
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Activity 3:
To describe changes in the view of an object held in different positions
[LO 3.7]
If we see a large building from the front, we know that it will not look the same if we see it from the back or from the side or if we are standing in front of a corner of the building.
1.
1.1 Go outside and look at the school from the front.
1.2 Walk round to the back of the school and look at it again.
When seen from each of the above positions, the school looks amazingly different.
2. Make the objects below with sugar cubes and look at them from various angles.
3. Make some more objects with sugar cubes and examine them from the front, the back, the sides and the corners.
4. Draw the following objects as they would look if you saw them from:
4.1 behind:
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Front
4.2 from the left side:
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Front
4.3 from the right corner:
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Front
Activity 4:
To investigate and approximate volume of three-dimensional objects [LO 4.8]
1. Pack sugar cubes into the matchbox and fill it with the cubes. How many do you need?
2. Now do the same with the other boxes and complete the table below:
| Object (box) | Number of sugar cubes needed to fill the box |
| Matchbox | |
3. Measure the cube of sugar and record your findings:
4. The matchbox can contain …………. cubes; we say its volume is about ……..… cubic centimetres.
5. When we measure what can go into the space in a container, we are measuring VOLUME and we need three measurements: length, width and height.
6. Instead of counting each little cube of sugar, what would be a quicker way of calculating the volume of a box? Discuss this with a friend and then write down your answer on the dotted line.
7. How many sugar cubes will you need to fill a box that is 20cm long, 15cm wide and 7cm high (a 2 litre ice-cream container)? Write down your calculations and then compare them with those of a friend.
| Learning outcomes(LOs) |
| LO 2 |
| Patterns, Functions and AlgebraThe learner will be able to recognise, describe and represent patterns and relationships, as well as to solve problems using algebraic language and skills. |
| Assessment standards(ASs) |
| We know this when the learner: |
| 2.1 investigates and extends numeric and geometric patterns looking for a relationship or rules, including patterns: |
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| 2.1.2 not limited to sequences involving constant difference or ratio. |
| 2.2 describes observed relationships or rules in own words. |
| LO 3 |
| Space and Shape (Geometry)The learner will be able to describe and represent characteristics and relationships between two-dimensional shapes and three-dimensional objects in a variety of orientations and positions. |
| We know this when the learner: |
3.2 describes, sorts and compares two-dimensional shapes and three-dimensional objects from the environment according to geometrical properties including:
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| 3.3 investigates and compares (alone and/or as a member of a group or team) two-dimensional shapes and three dimensional objects studied in this grade according to the properties already studied, by: |
| 3.3.1 making three-dimensional models using cut-out polygons (supplied); |
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| 3.4 recognises and describes lines of symmetry in two-dimensional shapes, including those in nature and its cultural art forms; |
| 3.5 makes two-dimensional shapes, three-dimensional objects and patterns from geometric objects and shapes (e.g. tangrams) with a focus on tiling (tessellation) and line symmetry; |
| 3.6 recognises and describes natural and cultural two-dimensional shapes, three-dimensional objects and patterns in terms of geometric properties; |
| 3.7 describes changes in the view of an object held in different positions. |
| LO 4 |
| measurementThe learner will be able to use appropriate measuring units, instruments and formulae in a variety of contexts. |
| We know this when the learner: |
| 4.8 investigates and approximates (alone and /or as a member of a group or team): |
4.8.2 area of polygons (using square grids and tiling) in order to develop an understanding of square units;
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ACTIVITY 1: 3D Objects
1. Investigation – practical
2. Using a net – practical
3. Practical – Tetrahedron (tetra – Greek = 4)
| Object | Surfaces | Flat or curved | Corners | Edges |
| Rectangular prism | 6 | Flat | 8 | 12 |
| Cube | 6 | Flat | 8 | 12 |
| Tetrahedron | 4 | flat | 5 | 7 |
ACTIVITY 2: Symmetry
1. PROJECT – own – practical
2. Shapes
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2.1 and 2.2 and 2.3 Cutting and folding and ruling lines of symmetry,
e.g.
(Note: in a rectangle diagonals cannot be used for just folding.)
ACTIVITY 3: objects seen from different angles
1.1 to 1.4 Practical – studying a building from various angles
2. and 3. Practical – working with cubes
4.1 to 4.3 Drawing – difficult!
ACTIVITY 4: volume
1. own
2. own investigation
3. 1 cm; 1 cm; 1 cm
4. own
5. -
6. Discussion (length x breadth x height)
7. 2 100 sugar cubes
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Last edited by Siyavula Uploaders on Jul 26, 2009 11:23 am GMT-5.
