Topic outline

  • IGCSE Mathematics Resource Plus overview
    • Geometry
      Scale drawings

    • show/hide  Video transcript
      This unit of work is Scale drawings.

      Working with scale factors can be challenging for some learners, particularly where the principles of proportional reasoning have been taught in isolation and the association between them has not been made clear.

      In this unit we emphasise the links between scale drawings and learners prior understanding of proportional reasoning.

      We will develop learners’ ability to apply their understanding of scale drawings to real-life situations in a range of contexts.

      Extended learners will also apply their understanding to interpret the effect on area of Scale drawings

      This unit of work is just one of several approaches that you could take when teaching this topic and you should aim to adapt the resources to match ability level of your learners as well as your school context.

    • Scale drawings



    • This unit is going to look at how to draw and interpret scale drawings. We are going to consolidate students understanding by applying the skills they learn in a range of real life contexts.

      We focus developing an understanding that scale drawing is an aspect of proportional reasoning and develop learners’ ability to apply their understanding of scale drawings to real-life situations in a range of contexts. The context used are one’s students are likely to be most familiar with, but they are just some of the examples that you could use when teaching this topic.

      Extended learners will also apply their understanding to interpret the effect on area of Scale drawings.

      Proportional reasoning is an area of mathematics that can causes problems in terms of conceptual understanding for learners who sometimes fail to make links to other topics within the mathematics curriculum such as similarity and scale factors.

      Proportional reasoning is often more apparent in relation to visual images, recognising shapes that have been enlarged or reduced, than it is in word problems that require interpretation relative to the context. Where students have had a limited exposure to the skills and strategies needed to enlarge or reduce shapes they will struggle when they are asked to construct and interpret scale drawing and misunderstandings and misconceptions will develop.

      Lesson 1 of this unit of work revisits learners' understanding of scale factors when solving problems involving similar shapes.

      We then build on this in the next two lessons to make sure learners have secured the link between their understanding of ratio and enlargement and scale drawings.

      This unit of work is just one of several approaches that you could take when teaching this topic, and you should aim to adapt the resources to match the ability level of your learners, as well as your school context.


    • Lesson resources



    • Lesson 2 video


      show/hide  Video transcript
      In real life we often need to share the details of real-life objects with people who can't see that object, so we need to be able to put them down on paper.

      For example, manufacturers need to share the detail of their cars with owners and mechanics in their handbooks, so they know how they work and can maintain them. But it is often not possible to draw on papers the actual size of real-life objects such as the real size of a car or an airplane.

      Let's look at an example.

      The length of a typical car is about 5 metres.

      But the length of an A4 piece of paper is only 297mm

      How many pieces of paper would you need to be able to draw the length of the car full size?

      Consider what we need to do first to answer this question.

      First, we need to change both measurements into the same units.

      The car is measured in metres and the paper in millimetres.

      In this case we're going to change the length of the car into millimetres.

      We are converting metres into millimetres.

      The prefix 'milli' which means one thousandth can guide us.

      At this point you might be asking yourself the question "Do I need to multiply or divide?"

      To answer this - think about the question "Are you expecting more or less millimetres than metres?"

      The answer to this question should be more.

      For example, it would require a lot of tiny millimetre fleas to be the same height as the dog.

      This should be telling you to multiply.

      The scale factor to convert from metres to millimetres is therefore multiply by a thousand.

      Now we need to work out how many pieces of paper we would need to put together to be able to draw the car full size.

      Dividing the length of the car by the length of a piece of paper you can see it would take 17 pieces of paper end-to-end, just to be able to accommodate the full length of the car.

      This should explain to you why we need scale drawings to represent large objects like this.


    • Lesson 3 video


      show/hide  Video transcript
      Let's look at how to convert between reality and your representation.

      A wall is one metre long in reality. How long will it be on a 1 to 100 scale drawing?

      Remember your prefixes again - 'centi' means one hundredth.

      So this means that the 1 metre wall is 100cm long.

      The scale tells us that we need to draw 1 centimetre on the page for every 100cm in real life.

      So the wall will be drawn as 1cm long on the scale drawing.

      So how long will the same one metre long wall be on a 1:500 scale drawing?

      Lets use the approach we used at the beginning of this unit.

      On a scale of 1:500, doing the same to the left hand side we get 1 divided by 5 or 0.2.

      This preserves the ratio of 1:500.

      So on a scale of 1:500, 1m will be drawn as 0.2 centimetres which is the same as 2 millimetres - a very short line!


    • Lesson 3 video


      show/hide  Video transcript
      Once you're happy converting from reality to your drawings, the next step is to convert between drawing scales.

      This may seem more complicated but the technique is the same.

      On a 1:50 scale drawing, one unit on the scale drawing represents 50 units in reality.

      But on a scale drawing of 1:100 the same unit now represents 100 units in reality so you will need less space to draw the same object.

      In fact you will need 50 divided by 100 or half the space to draw the same object on a 1:100 scale drawing.

      Now consider the scale factor from a 1:500 to 1:200 scale drawing.

      On a scale drawing of 1:500 one unit on the scale drawing will be equivalent to 500 units in reality.

      On a scale drawing of 1:200 you will need more space to complete the drawing.

      You will require 500 divided by 200 units to represent the same object on the scale drawing.

      This means 2 and a half units for every one you drew previously.

      So an object which is 1cm long on a scale of 1:500 will be 2.5cm long on a scale of 1:200.

    • Interactive tools

    • show/hide  How can these tools be used?
      These resources are for use with any digital display in your classroom - including a projector, interactive whiteboard or any form of screen sharing technology. When selected, they fill the current available display. The resource is then ready for presentation and annotation.

      As part of your ongoing Resource Plus subscription, we plan to include additional tools. We'd love to know your thoughts and ideas for further development.

      • Graph A4 4mm axes

      • Graph A4 4mm axes

      • Graph A4 4mm

    • Test Maker - Scale drawings past paper questions


    • testmaker-img_tcm149-505892.jpg
    • Test Maker is an online service that makes it easy for you to create high-quality, customised test papers for your learners using Cambridge questions.

      Test Maker is currently available for Cambridge IGCSE Mathematics 0580 and Cambridge IGCSE Additional Mathematics 0606 syllabuses, but although the grading differs for Cambridge IGCSE (9-1) syllabuses, the questions are valid for equivalent Cambridge IGCSE (9-1) and O Level syllabuses.

      Test Maker is available to all Cambridge schools through the Extra Services section of the School Support Hub.