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=== Prerequisites/Instructions, prior preparations, if any ===
 
=== Prerequisites/Instructions, prior preparations, if any ===
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Prior knowledge about 2D shapes and its properties
    
=== Materials/ Resources needed ===
 
=== Materials/ Resources needed ===
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Digital: Laptop, geogebra file, projector and a pointer.
    
=== Process (How to do the activity) ===
 
=== Process (How to do the activity) ===
 
{{Geogebra|g7crjrpd}}  
 
{{Geogebra|g7crjrpd}}  
 
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* "What are some shapes that you know?"
1. "What are some shapes that you know?"
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*   Show picture of 2d and 3d and ask difference among shapes, What's the difference between 2D and 3D shapes?
 
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*   Invite students to share the names of 2D and 3D shapes
   2. Show picture of 2d and 3d and ask difference among shapes, What's the difference between 2D and 3D shapes?
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*   What are 3 D shapes?
 
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*   Visualizing solid shapes is a very useful skill. You should be able to see ‘hidden’parts of the solid shape.
   3. Invite students to share the names of 2D and 3D shapes
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*   Different sections of a solid can be viewed in many ways:
 
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   4. What are 3 D shapes?
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   15. Visualizing solid shapes is a very useful skill. You should be able to see ‘hidden’parts of the solid shape.
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              Different sections of a solid can be viewed in many ways:
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   (a) One way is to view by cutting or slicing the shape, which would result in the
 
   (a) One way is to view by cutting or slicing the shape, which would result in the
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   (b)  Another way is by observing a 2-D shadow of a 3-D shape.
 
   (b)  Another way is by observing a 2-D shadow of a 3-D shape.
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   (c) A third way is to look at the shape from different angles; the front-view, the
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   (c) A third way is to look at the shape from different angles;  
 
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*       the front-view, the side-view and the top-view can provide a lot of information about the shape observed.
      side-view and the top-view can provide a lot of information about the shape
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*       Rotate the object to find a top, side and bottom view of the solid.
 
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*       Draw these views using pencil in your maths books, with a title "Top, side and bottom views of objects."
      observed.
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      -Rotate the object to find a top, side and bottom view of the solid.
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       Draw these views using pencil in your maths books, with a title "Top, side and bottom views of objects."
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   {{Geogebra|uk9caecz}}
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Do you remember the Faces, Vertices and Edges of solid shapes
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   6. Students recall the terms edge, vertex, and face.
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{{Geogebra|uk9caecz}}
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* Do you remember the Faces, Vertices and Edges of solid shapes
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* Students recall the terms edge, vertex, and face.
 
      Face- part of a 3D shape that is flat
 
      Face- part of a 3D shape that is flat
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      Base – the bottom base of a 3D shape
 
      Base – the bottom base of a 3D shape
 
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* Can you see that, the two-dimensional figures can be identified as the faces of the three-dimensional shapes?
   7. Can you see that, the two-dimensional figures can be identified as the faces of the three-dimensional shapes?
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'''Cuboid'''
 
'''Cuboid'''
    
{{Geogebra|xwfryemq}}
 
{{Geogebra|xwfryemq}}
 
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# How many sides does a cuboid have ?
   10. Observe that shapes have two or more than two identical(congruent)faces?name them?
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# Are all sides the same ?
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# Point to its vertices. How many vertices does a cuboid have ?
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# Point to its edges and faces. How many are there ?
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# What is the shape of each of its face ? So how many squares and rectangles are there in a cuboid ?
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# Observe that shapes have two or more than two identical(congruent)faces?name them?
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# What are the properties of a cuboid ?  
    
'''Cube'''
 
'''Cube'''
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{{Geogebra|efqkt9am}}
 
{{Geogebra|efqkt9am}}
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   11. Which solids has all congruent faces?
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  # How many sides does a cube have ?
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# Are all sides the same ?
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# Point to its vertices. How many vertices does a cube have ?
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# Point to its edges and faces. How many are there ?
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# What is the shape of each of its face ? So how many squares are there in a cube ?
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# Which solids has all congruent faces?
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# What are the properties of a cube ?
    
'''Cylinder'''
 
'''Cylinder'''
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{{Geogebra|p6fv452u}}
 
{{Geogebra|p6fv452u}}
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   12.  What shape is the base of a cylinder?
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# How many bases are in a cylinder?
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# What shape is the base of a cylinder?
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# How many edges does a cylinder have ?
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# How many vertices does a cylinder have ?
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# How many faces does a cylinder have ?
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# What are the properties of a cylinder?
    
'''Cone'''
 
'''Cone'''
    
{{Geogebra|a74exedh}}
 
{{Geogebra|a74exedh}}
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# What shape is the base of a cone?
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# How many edges does a cone  have ?
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# How many vertices does a cone have ?
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# How many faces does a cone have ?
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# What are the properties of a cone?
    
'''Sphere'''
 
'''Sphere'''
    
{{Geogebra|m7hwxbp7}}
 
{{Geogebra|m7hwxbp7}}
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# How many edges does a sphere  have ?
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# How many vertices does a sphere have ?
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# How many faces does a sphere have ?
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# What are the properties of a sphere?  
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   13.  Does the base of the shape change depending on how the shape is positioned?
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* Does the base of the shape change depending on how the shape is positioned?
 
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* Observe the shape of each face and find the number of faces of the box that are identical by placing them on each other. Write down your observations.
   14. Observe the shape of each face and find the number of faces of the box that are identical by placing them on each other. Write down your observations.
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Cuboidal  box – all six faces are rectangular, and opposites faces are identical. So there are three pairs of identical faces.
 
Cuboidal  box – all six faces are rectangular, and opposites faces are identical. So there are three pairs of identical faces.
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Cylindrical Box – One curved surface and two circular faces which are identical.
 
Cylindrical Box – One curved surface and two circular faces which are identical.
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* A net is a sort of skeleton-outline in 2-D, which, when folded results in a 3-D shape.  '''   '''
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'''Euler’s formula for Polyhedrons (F+V=E+2)'''
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{{Geogebra|bhseqkhj}}
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* What are polyhedrons?
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Polyhedrons - Is a 3D solid which with flat polygonal faces, straight edges and sharp corners or vertices.
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* Identify number of edges, faces and vertices in a given polyhedron ?
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'''A net is a sort of skeleton-outline in 2-D, which, when folded results in a 3-D shape.     '''
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* Calculate F+V and  E+2
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'''Euler’s formula : F+V=E+2 for Polyhedrons.'''
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* F+V = E+2 (Euler's Formula or Polyhedral formula)
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{{Geogebra|bhseqkhj}}
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* F+V-E=2
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* The number of faces plus the number of vertices minus the number of edges equals 2.