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Geometry
1. Let us revise the work that you did in Grade 4. At the same time you can see how good your memory is! For the following activity you will have to use your father’s hammer and nails. Just keep your thumb out of the way!
Place the nails about 1,5 cm apart.
DO YOU STILL REMEMBER?
A quadrilateral is any figure with 4 sides and 4 angles.
A square has four sides of equal length and four 90º angles.
The opposite sides of a rectangle are of equal length and all four angles are 90º.
A triangle is any figure with 3 angles and 3 sides.
1.1 Form the following figures with rubber bands on the nail board.
1.2 Draw two of each figure on the dotted sheet (p. 5).
Quadrilateral
Square
Rectangle
Triangle
1.3 Have a class discussion: Make a list of all the similarities between your figures on the peg-board.
1.4 Now draw and examine the figures on your dotted page (page 4) and, as a class, see how much dissimilarity you can find among them.
1. Page through old newspapers and magazines and cut out examples of quadrangles, squares, rectangles and triangles. Paste them into the appropriate boxes below. Get a friend to check whether you have done it correctly. (Hint: See whether the qualities of the figure match those of the example that your friend pasted in.)
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1. Colour the parts of all the triangles you can see in purpleHow many triangles are there?
2. Colour all the circles in pink. How many circles are there?
3. Colour all the squares in red. How many squares are there?
4. Colour all the rectangles in green. How many rectangles are there?
Although it sounds very simple, it is still extremely important for you to know how many sides and angles a figure has, because it can help us to classify polygons without much trouble. Use the drawings below and then complete the table that follows.
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A triangle, quadrilateral and a pentagon
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A hexagon, heptagon and an octagon
| Number of sides in the polygon | 3 | 4 | 5 | ......... | ......... | 8 | 12 | 100 | 220 |
| Number of triangles in the polygon | 1 | ......... | ......... | 4 | 5 | ......... | ......... | ......... | ......... |
This activity is an assignment for your portfolio. Read the instructions as well as the assessment criteria carefully before you start. Ask your teacher to explain where necessary.
First of all, test your memory. Explain the meaning of “symmetrical” to your friend.
1. Use magazines to find pictures of shapes / figures that are symmetrical.
2. Do the following:
So far we have worked with 2-dimensional shapes. Let’s now take a good look at 3-dimensional figures.
1. Have a class discussion. What is the difference between 2-dimensional and 3-dimensional figures?
2. How would you like to be an architect and a builder? Now you and your friend have the opportunity to build the school of your dreams! You need the following:
This school must have classrooms and there must be a round swimming pool. Naturally you will also want a computer centre and a school hall. The changing rooms and the rugby field must be close together.
First study the following useful information before you start:
The following information might be useful:
A structure like a matchbox is called a RECTANGULAR PRISM, because the faces are all rectangles.
A CUBE is a special type of rectangular prism, because the FACES of a cube are all squares.
3. After your model has been completed, you must complete the table below. Look at the figures you have made. If, for instance, the hall is a rectangular prism, it must be written in the applicable column.
| Rectangular prisms | Cubes | Other 3D shapes | 2D shapes |
| e.g. Hall | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
| ...................................... | ............................... | ............................... | ............................... |
Think about how tiles are laid on a wall or the floor of a bathroom. The tiles fit exactly against one another. The spaces you can see are only there for the cement or glue so that the tiles can stick properly and will not fall off.
The tiles usually look like this when they are laid:
We say the tiles TESSELLATE because they fit into one another EXACTLY without spaces between them.
1. This afternoon when you are at home, look at the tiles in your bathroom, kitchen or any other room. You could also look at the floor or wall tiles in any shop in your area. Make a drawing of what they look like in the box below:
2. Now look at the drawing of the tiles above. Can you see that the inside tiles are rectangles and the outside tiles are triangles?
Now make your own patterns by combining
| LU 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: |
3.1 recognises, visualises and names two-dimensional shapes and three-dimensional objects in natural and cultural forms and geometric settings including those previously dealt with and focusing on:3.1.1 similarities and differences between cubes and rectangular prisms;
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3.2 describes, sorts and compares two-dimensional shapes and three-dimensional objects from the environment and from drawings or pictures according to 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 properties listed above by:
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3.5 makes two-dimensional shapes, three-dimensional objects and patterns from geometric shapes and describes these in terms of:
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| 3.6 recognises and describes natural and cultural two-dimensional shapes, three-dimensional objects and patterns in terms of geometric properties. |
ACTIVITY 3
1. 6
2. 5
3. 6
4. 4
ACTIVITY 4
6 ; 7
3 ; 6 ; 10 ; 98 ; 218
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Last edited by Siyavula Uploaders on Aug 3, 2009 11:04 am GMT-5.
