MATHEMATICS. Y4 Understanding shape Visualise 3-D objects and make nets of common solids. Equipment

Similar documents
MATHEMATICS. Y4 Understanding shape Visualise, describe and classify 3-D and 2-D shapes. Equipment

Multiply using the grid method.

Learning from Home Activity Booklet

UNIT 6 Nets and Surface Area Overhead Slides

Geometro. for accessble 3-D geometry. Aniceta Skowron, Ph.D.

Unit 4 Reasoning about shape. Year 4. Five daily lessons. Autumn term. Unit Objectives. Link Objectives

3D shapes introduction

Classifying 3D Shapes

acute angle An angle with a measure less than that of a right angle. Houghton Mifflin Co. 2 Grade 5 Unit 6

AngLegs Activity Cards Written by Laura O Connor & Debra Stoll

PRACTICAL GEOMETRY SYMMETRY AND VISUALISING SOLID SHAPES

202 The National Strategies Secondary Mathematics exemplification: Y7

SHAPE AND STRUCTURE. Shape and Structure. An explanation of Mathematical terminology

AREAS AND VOLUMES. Learning Outcomes and Assessment Standards

Key Concept Euler s Formula

February 07, Dimensional Geometry Notebook.notebook. Glossary & Standards. Prisms and Cylinders. Return to Table of Contents

Lesson 18: Slicing on an Angle

Year 2 Spring Term Week 5 to 7 - Geometry: Properties of Shape

Practice A Introduction to Three-Dimensional Figures

SOLIDS.

INSTRUCTIONS FOR THE USE OF THE SUPER RULE TM

Unit 1, Lesson 13: Polyhedra

Glossary 14:00. 2-dimensional (2-D) addend. addition = 8. a.m. 3-dimensional (3-D) analogue clock. angle. approximate, approximately

Section A Solids Grade E

Our Lady of the Rosary College. F. 3 Mathematics

Lesson Polygons

CARDSTOCK MODELING Math Manipulative Kit. Student Activity Book

Let a line l and a point P not lying on it be given. By using properties of a transversal and parallel lines, a line which passes through the point P

Lesson 24: Surface Area

Cargilfield Maths Revision Book 1

Unit 7: 3D Figures 10.1 & D formulas & Area of Regular Polygon

Right Angle Triangle. Square. Opposite sides are parallel

Draw and Classify 3-Dimensional Figures

Polyhedron. A polyhedron is simply a three-dimensional solid which consists of a collection of polygons, joined at their edges.

Geometry Vocabulary. acute angle-an angle measuring less than 90 degrees

For many years, geometry in the elementary schools was confined to

11.4 Three-Dimensional Figures

Three-Dimensional Shapes

A C E. Applications. Applications Connections Extensions

Explore Solids

Lesson 10T ~ Three-Dimensional Figures

LESSON. Bigger and Bigger. Years 5 to 9. Enlarging Figures to Construct Polyhedra Nets

My Notes CONNECT TO SCIENCE. Horticulture is the science and art of growing fruit, flowers, ornamental plants, and vegetables.

Math 257: Geometry & Probability for Teachers, with Joe Champion, Fall 2013

Grade 6 Mathematics Item Specifications Florida Standards Assessments

Visualising Solid Shapes

3 Dimensional Solids. Table of Contents. 3 Dimensional Solids Nets Volume Prisms and Cylinders Pyramids, Cones & Spheres

Special Lines and Constructions of Regular Polygons

S2 (2.4) L2 3D Shapes.notebook October 01, 2014

Nets and Drawings for Visualizing Geometry. Unit 1 Lesson 1

SOLID SHAPES M.K. HOME TUITION. Mathematics Revision Guides. Level: GCSE Foundation Tier

Solid Figures. Name. 22 Topic 18. Reteaching Polyhedrons Prisms

Number/Computation. addend Any number being added. digit Any one of the ten symbols: 0, 1, 2, 3, 4, 5, 6, 7, 8, or 9

MATH DICTIONARY. Number Sense. Number Families. Operations. Counting (Natural) Numbers The numbers we say when we count. Example: {0, 1, 2, 3, 4 }

3D shapes types and properties

place value Thousands Hundreds Tens Units

State if each pair of triangles is similar. If so, state how you know they are similar (AA, SAS, SSS) and complete the similarity statement.

Geometry 10 and 11 Notes

16. [Shapes] Q. What shape is this object? A. sphere. a) Circle the cube. b) Circle the cone. c) Circle the cylinder. d) Circle the sphere.

Notes: Geometry (6.G.1 4)

TIMSS 2011 Fourth Grade Mathematics Item Descriptions developed during the TIMSS 2011 Benchmarking

WONDERLAB: THE EQUINOR GALLERY. The science and maths behind the exhibits 30 MIN INFORMATION. Topic MATHS. Age

Students construct nets of three dimensional objects using the measurements of a solid s edges.

Polygon Practice. E90 Grade 5. Name

Polygons. 5 sides 5 angles. pentagon. Name

Geometry Vocabulary. Name Class

Three Dimensional Figures. TeacherTwins 2015

5.1 Any Way You Slice It

Digits. Value The numbers a digit. Standard Form. Expanded Form. The symbols used to show numbers: 0,1,2,3,4,5,6,7,8,9

A Physical Proof for Five and Only Five Regular Solids

Pre-Algebra, Unit 10: Measurement, Area, and Volume Notes

Polygons. 5 sides 5 angles. pentagon. no no R89. Name

Large. Structures Pack. Cautionary and Warning Statement

4.1 Exploring Nets (pp )

6.G.1. SELECTED RESPONSE Select the correct answer. CONSTRUCTED RESPONSE. 3. What is the area of this shape?

Measurement 1 PYTHAGOREAN THEOREM. The area of the square on the hypotenuse of a right triangle is equal to the sum of the areas of

About Finish Line Mathematics 5

SHAPE, SPACE and MEASUREMENT

Geometry AP Book 8, Part 2: Unit 7

Rectangular prism. The two bases of a prism. bases

PYRAMIDS AND CONES WHAT YOU LL LEARN. Ø Finding the surface areas and volume of pyramids Ø Finding the surface areas and volume of cones

Methods in Mathematics

STAAR Category 3 Grade 7 Mathematics TEKS 7.9D. Student Activity 1

Student Book SERIES. Geometry. Name

absolute value- the absolute value of a number is the distance between that number and 0 on a number line. Absolute value is shown 7 = 7-16 = 16

Math 6: Geometry 3-Dimensional Figures

Further Volume and Surface Area

Math 8: Identify Shapes and Surface Area

Pre-Algebra Notes Unit 10: Geometric Figures & Their Properties; Volume

Unit E Geometry Unit Review Packet

178 The National Strategies Secondary Mathematics exemplification: Y7

Unit 1, Lesson 1: Tiling the Plane

The radius for a regular polygon is the same as the radius of the circumscribed circle.

PLC Papers Created For:

Lesson 23: Surface Area

PERSPECTIVES ON GEOMETRY PRE-ASSESSMENT ANSWER SHEET (GEO )

To find the surface area of a pyramid and a cone

Mathematics Assessment Anchor Glossary Grades 3 & 4

Fair Game Review. Chapter 9. Name Date. Find the area of the square or rectangle

Geometro: Developing Concepts for Math, Science and O&M with Students who are Visually Impaired October 5, 2012

Transcription:

MATHEMATICS Y4 Understanding shape 4502 Visualise 3-D objects and make nets of common solids Equipment Paper, pencil, boxes, range of 3-D shapes, straws and pipe cleaners or 3-D model construction kits. Optional: pinboard and elastic bands. Maths Go Go Go

4502 Visualise 3-D objects and make nets of common solids Page 2 Concepts Children need to spend time handling 3-D shapes and should be familiar with the terms 'edge', 'face' and 'vertex' (plural: 'vertices') when applied to 3-D shapes. Edges Faces Vertices A range of boxes used for packaging such as chocolate boxes, tissue boxes etc, may be opened to see the nets used to construct them. (A net is the 2-D shape that must be cut out and folded to make a 3-D shape. Eg. for a cube: ) Children should make 3-D shapes from suitable materials such as straws and pipe cleaners (used to join the ends) or kits designed for the purpose. In this way, they will be able to see how many of each 2-D shape are needed as faces for a 3-D shape (Eg. six squares are needed to make a cube; a square and four isosceles triangles are needed to make a square.) Many shapes can be made from cubes. Cubes that join together are helpful here, but non-joining cubes are very useful too. Other properties of shapes will be discovered, such as 'the number of faces of a prism is equal to two more than the number of edges on one of the end faces'. A pin board may be simply made by nailing panel pins or small nails into a piece of plywood approximately 24cm 24cm. Cut out the plywood and mark a grid of lines at 2cm intervals in both directions across the plywood. Tap in the pins at the points where the lines of the grid meet. Leave enough of the pins protruding to accommodate elastic bands.

4502 Visualise 3-D objects and make nets of common solids Page 3 1. Find some interesting boxes such as chocolate boxes, tissue boxes or orange drink cartons. Carefully undo them and lay them out flat. Draw round them on a large piece of paper. Count the number of faces. Can you see how many squares, triangles and other shapes there are? 2. Make a cuboid from straws or from card. The next page shows a net for a cuboid if you need one. How many faces does the cuboid have? How many edges does the cuboid have? How many vertices does the cuboid have? 3. Look at some different pyramids. Or you could make some of your own! Count the number of edges on the base, the number of faces, the number of edges altogether and the number of vertices. Fill in the table: Name Tetrahedron Square Pentagonal Hexagonal Octagonal based pyramid Edges on base Faces Edges Vertices What do you notice about the number of faces and vertices on a pyramid? What do you notice about the number of edges on the base and the number of faces? What do you notice about the number of edges on the base and the number of vertices? What can you say about the number of edges on the base and the number of edges altogether?

4502 Visualise 3-D objects and make nets of common solids Page 4 Here is a net of a cuboid for use in question 2 on the previous page.

4502 Visualise 3-D objects and make nets of common solids Page 5 1. Look at some different prisms. Count the number of edges on the ends, the number of faces, the number of edges altogether and the number of vertices. Fill in the table: Name Triangular prism Cuboid Pentagonal prism Hexagonal prism Octagonal prism Edges on end Faces Edges Vertices What do you notice about the number of faces compared to the number of edges on the ends? What do you notice about the number of edges altogether compared to the number of edges on the ends? What do you notice about the number of vertices compared to the number of edges on the ends? What happens if you add the number of faces and the number of vertices together for each shape? Are any of the columns of number in the times tables? 2. Which prism is this the net for? I think it's the prism for a long, thin, three sided cake!

1. 4502 Visualise 3-D objects and make nets of common solids Page 6 Can you make this shape from small cubes? How many cubes did you need? Is this the smallest number you need? 2. Can you make these letters of the alphabet using small cubes? 3. Quick test: What are these shapes called? a. c. e. g. b. d. f.

4502 Visualise 3-D objects and make nets of common solids Page 7 1. Try to make these three dimensional shapes using shapes you already have such as cubes, cuboids, pyramids and prisms. Clue: There's a cube in the middle of this shape. You might also need some glue for this one! Try making some shapes of your own. We had fun making these!

4502 Visualise 3-D objects and make nets of common solids Page 8 1. Here are some shapes on a pinboard. Use your pinboard and elastic bands to copy the shapes. All these shapes have one line of symmetry. Use your pinboard to make shapes using your own rules. Here are some ideas for rules if you are stuck. Draw shapes with four sides and one line of symmetry. Draw shapes with two lines of symmetry. Draw shapes with all the sides the same length. Draw shapes with one right angle. Draw shapes with an area of six squares on the pinboard.

4502 Visualise 3-D objects and make nets of common solids Page 9 Answers Page 3 2. A cuboid has six faces, twelve edges and eight vertices. 3. Name Edges on base Faces Edges Vertices Tetrahedron 3 4 6 4 Square 4 5 8 5 Pentagonal 5 6 10 6 Hexagonal 6 7 12 7 Octagonal 8 9 16 9 On a pyramid the number of faces and vertices are the same. On a pyramid the number of faces is one more than the number of edges on the base. On a pyramid the number of vertices is one more than the number of edges on the base. On a pyramid the number of edges altogether is twice the number of edges on the base.

4502 Visualise 3-D objects and make nets of common solids Page 10 Page 5 Answers (Contd) 1. Name Edges on end Faces Edges Vertices Triangular 3 5 9 6 Prism Cuboid 4 6 12 8 Pentagonal 5 7 15 10 Prism Hexagonal 6 8 18 12 Prism Octagonal 8 10 24 16 prism On a prism the number of faces is two more than the number of edges on the end. On a prism the number of edges altogether is three times the number of edges on the ends. On a prism the number of vertices altogether is twice times the number of edges on the ends. If you add the number of faces and the number of vertices for each shape it is two more than the number of edges. 2. This is the net for a triangular prism. Page 6 3. a. Cube b. Cuboid c. Square d. Tetrahedron e. Octahedron f. Triangular prism g. Hexagonal prism

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback