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2011-02-01T00:00:01
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In this problem you start with some sheets of squared paper
measuring $15\times 15$ and use them to make little boxes without
lids.
<p>You do this by cutting out squares at the corners and then
folding up the sides. (The folds are indicated by the dotted lines
in the diagram.)</p>
<p style="text-align: center;"><mdo:image height="200" width="331" alt="" src="89A.png"></mdo:image></p>
<br></br>
<div>Begin by cutting one square out of each corner. Fold up the
sides. What is the size of the base? How high are the sides? So
what is its volume?</div>
<br></br>
<div>Now cut a $2 \times 2$ square out of each corner and fold up
the sides.</div>
<div>Does it look as if it holds more than the first box, less than
the first box or just the same amount?</div>
<div>What is the size of the base now? How high are the sides now?
So what is its volume?</div>
<br></br>
<div>Now cut a $3 \times 3$ square out of each corner and fold up
the sides.</div>
<div>Does it look as if it holds more than the other boxes, less
than the other boxes or just the same amount?</div>
<div>What is the size of the base now? How high is it now? So what
is its volume?</div>
<br></br>
<div>If you keep on doing this, taking larger and larger squares
from the corners, which box will have the largest volume?</div>
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<p style="text-align: left;" class="editorial">Here we see pictures
of well-displayed solutions sent in from Rawdon Littlemoor School,
we had 25 pupils' results sent in. Well done!</p>
<p style="text-align: center;"> </p>
<div style="text-align: center;"> </div>
<div style="text-align: center;"> <mdo:image width="501" height="751" src="SolutionsRawdon.jpg" alt="SolRawdon"></mdo:image></div>
<div style="text-align: center;"> </div>
<p style="text-align: left;" class="editorial">Many pupils from
Prince Henry's Grammar School sent in their solutions having made
good use of a spreadsheet. Here are two of them:</p>
<div style="text-align: left;"> </div>
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<div style="text-align: center;"><mdo:image width="564" height="717" src="SolutionB.jpg" alt="Solution2"></mdo:image></div>
<div style="text-align: center;"> </div>
<div style="text-align: center;"> </div>
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<h2>Making Boxes</h2>
<br></br>
In this problem you start with some sheets of squared paper measuring $15\times 15$ and use them to make little boxes without lids.
<p>You do this by cutting out squares at the corners and then folding up the sides. (The folds are indicated by the dotted lines in the diagram.)</p>
<p style="text-align: center;"><mdo:image alt="" height="200" src="89A.png" width="331"></mdo:image></p>
<br></br>
<div>Begin by cutting one square out of each corner. Fold up the sides. What is the size of the base? How high are the sides? So what is its volume?</div>
<br></br>
<div>Now cut a $2 \times 2$ square out of each corner and fold up the sides.</div>
<div>Does it look as if it holds more than the first box, less than the first box or just the same amount?</div>
<div>What is the size of the base now? How high are the sides now? So what is its volume?</div>
<br></br>
<div>Now cut a $3 \times 3$ square out of each corner and fold up the sides.</div>
<div>Does it look as if it holds more than the other boxes, less than the other boxes or just the same amount?</div>
<div>What is the size of the base now? How high is it now? So what is its volume?</div>
<br></br>
<div>If you keep on doing this, taking larger and larger squares from the corners, which box will have the largest volume?</div>
</div>
<br></br>
<h3><span style="font-weight: bold;">Why do this problem?</span></h3>
<a href="http://nrich.maths.org/public/viewer.php?obj_id=89&part=index">This activity</a> could be used to extend learners' ideas about area. It is also a valuable activity for the introduction of volume, although it is quite possible to do the investigation without using the word. Learners can be asked to visualise the boxes they are about to make, and it may be that some pupils turn to
visualisation as the main route to a solution. In addition, this problem is useful for practising multiplication tables, especially squares.<br></br>
<h3>Possible approach</h3>
<div>You could start by demonstrating making the lidless boxes from a $10 \times10$ square. First cut one square from each corner and fold up the edges.</div>
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<div style="text-align: center;"><mdo:image alt="" height="172" src="89N.png" width="506"></mdo:image></div>
<br></br>
<div>Ask learners what the area of the base is and how many cubes it would hold. How do they know? Explain that you are going to cut a $2 \times2$ square from each corner next, but before doing so, ask the group to visualise the resulting box. What would the area of the base be this time and how many cubes would it hold? Either make the box for the children to see, or invite them to check their
visualisations in pairs. Continue with a $3 \times3$ square cut from each corner but this time do not ask about the size, simply ask them to picture the box in their heads. (A $10 \times10$ square, which can be enlarged for a bigger group, can be downloaded <a href="/content/01/05/bbprob1/89.pdf">here</a> .)</div>
<br></br>
<div>Pose the problem itself and give learners squared paper (centimetre squares are ideal) to work on a solution in pairs so that they are able to talk through their ideas with a partner. You may like to encourage learners to predict which box will have the largest volume and to give a reason for their prediction. You will need to supply scissors and possibly sticky tape. Some might make a table
of their results, or you could collate the class results on the board for everyone to see. Continuing with differently-sized squares, both smaller and larger than $15$, will produce some interesting number patterns.</div>
<br></br>
<div>In the plenary, invite learners to show their work and discuss the results. Were their predictions correct? What do they notice about the volume as the cut-out squares get bigger? Can they get a feel for why this is? A display of a series of boxes can be made with the different volumes written in the base.</div>
<br></br>
<h3>Key questions</h3>
<div>How big is the base/bottom of this box? How high are the sides? So how much does it hold?</div>
<div>Are you sure that this is a square? Why not count it and see?</div>
<div>What is happening to the volume as we cut bigger squares out of the paper?</div>
<br></br>
<h3>Possible extension</h3>
<div>Learners could make a graph of their results as well as trying differently-sized starting squares. Those who really do not need to make many boxes to make the calculations could try intermediate corner numbers such as $2.5 \times 2.5$ cut from the original square. Alternatively, they could try <a href="http://nrich.maths.org/public/viewer.php?obj_id=6399&part=index">this more
advanced</a> version of the problem.</div>
<br></br>
<h3>Possible support</h3>
<div>Some learners might find it easier to start with a $12 \times 12$ square. This means that the base of the first box is $10 \times10$, which gives a familiar starting number. You may also find centimetre cubes useful.</div>
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How big is the base/bottom of this box?<br></br>
How high are the sides?<br></br>
So how much does it hold?<br></br>
<br></br>
It might be useful to print out this $15 \times15$ square.<br></br>
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<div style="text-align: center;"><mdo:image width="428" height="429" alt="" src="grid.gif"></mdo:image></div>
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<p>Tyler from St. Joseph The Worker School in Irlam, Salford, sent
in this solution to his investigation of boxes. Tyler made the
boxes and this enabled him to describe his ideas.</p>
<p>Simply cut out the first square from every corner and record
your answer. Next cut out L shapes from the corners recording your
answers as you go along. You will find, after recording all of your
answers, that the box with the greatest volume is Box 3.</p>
<p>These were the answers that Tyler recorded:</p>
<table cellspacing="0" cellpadding="5">
<tbody>
<tr>
<th>Height</th>
<th>Length</th>
<th>Width</th>
<th>Volume</th>
</tr>
<tr>
<td>1</td>
<td>13</td>
<td>13</td>
<td>169</td>
</tr>
<tr>
<td>2</td>
<td>11</td>
<td>11</td>
<td>242</td>
</tr>
<tr>
<td>3</td>
<td>9</td>
<td>9</td>
<td>243</td>
</tr>
<tr>
<td>4</td>
<td>7</td>
<td>7</td>
<td>196</td>
</tr>
<tr>
<td>5</td>
<td>5</td>
<td>5</td>
<td>125</td>
</tr>
<tr>
<td>6</td>
<td>3</td>
<td>3</td>
<td>54</td>
</tr>
<tr>
<td>7</td>
<td>1</td>
<td>1</td>
<td>7</td>
</tr>
</tbody>
</table>
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Making Boxes
Cut differently-sized square corners from a square piece of paper
to make boxes without lids. Do they all have the same volume?
Measures and Mensuration
Area
Using, Applying and Reasoning about Mathematics
Investigations
Measures and Mensuration
Volume and capacity
Using, Applying and Reasoning about Mathematics
Working systematically
Numbers and the Number System
Square numbers
Admin
Upper primary mapping document