1389 /www/nrich/html/content/01/03/art1/ 3 2011-02-01T00:00:01 <?xml version="1.0" encoding="UTF-8"?> <mdoxml version="1.0"><p>Here are some experiments in which you can make discoveries about geometry.</p> <h2>Stage 1</h2> <p>You need about six thin straight sticks or thin drinking straws. Cut one into 3 bits. Can the bits form a triangle? It is not always possible to make a triangle using three given lengths. Experiment with sticks or straws of different lengths and try to find the condition which determines when three lengths do form a triangle and when they do not. This condition is called the <strong>Triangle Inequality</strong> .</p> <h2>Stage 2</h2> <p>You now need <em>square paper bits</em> (laminated ones preferably) ranging from 1 x 1 to 13 x 13 squares. Ideally the squares should be plain on one side and have squares marked on the other side.</p> <p>Instead of using sticks, make triangles with the edges of three square bits of your choice using the plain sides. Every time you make a triangle, identify whether it is acute, obtuse or right angled and fill in the first column in the table.</p> <p>Recall that a triangle is <em>acute</em> when each of its angles is <em>less than</em> a right angle or square corner. A triangle is <em>right angled</em> when one of its angles is a right angle or a square corner. A triangle is <em>obtuse</em> when one of its angles is <em>greater than</em> a right angle or square corner.</p> <p><mdo:image alt="Fig1" height="305" src="fig1.gif" width="632"></mdo:image></p> <p>Sometimes you get acute angled triangles, sometimes right angled and sometime obtuse angled. Now turn over the squares showing the grids.</p> <p><mdo:image alt="Fig2" height="373" src="fig2.gif" width="589"></mdo:image></p> <p>Use the paper squares to make different triangles. Fill in the table to help you to discover a test for deciding whether the triangle is acute angled, right angled or obtuse angled. In the last three columns fill in the box with &amp;lt; , = or &amp;gt; appropriately.</p> <table style="border:2px;"> <tbody> <tr align="middle" valighn="top"> <td rowspan="2" width="100" style="">Triangle number</td> <td rowspan="2" width="150" style="">Kind of triangle: acute, obtuse, right</td> <td colspan="3" style="">Lengths of sides</td> <td colspan="3" style="">Areas in square units</td> <td colspan="3" style="">Relation between sum of two squares and the third square</td> </tr> <tr align="middle"> <td width="50" style="">a</td> <td width="50" style="">b</td> <td width="50" style="">c</td> <td width="50" style="">a²</td> <td width="50" style="">b²</td> <td width="50" style="">c²</td> <td width="150" style="">a² +b² <mdo:image alt="" src="square.gif"></mdo:image> c²</td> <td width="150" style="">b² +c² <mdo:image alt="" src="square.gif"></mdo:image> a²</td> <td width="150" style="">c² +a² <mdo:image alt="" src="square.gif"></mdo:image> b²</td> </tr> <tr> <td height="100" style=""> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td> </tr> </tbody> </table> <p>Stop and discover. Write down your discoveries. Do they agree with what is stated here?</p> <ul> <li><strong>The Triangle Inequality</strong> : Three lengths form a triangle if and only if the sum of the lengths of any two of the three is greater than the third length. Equivalently as a single test, three lengths determine a triangle if and only if the sum of the two shortest lengths is longer than the longest of the sides.</li> <li>When the sum of the squares on two sides of a triangle is <em>greater</em> than the square on the third side, the same holds good for other pairs of sides as well, and the triangle is <em>acute</em> .</li> <li>When the sum of the squares on two sides of a triangle is <em>equal</em> to the square on the third side, then the triangle is <em>right angled</em> .</li> <li>When the sum of the squares on two sides of a triangle is <em>less</em> than the square on the third side, then the triangle is <em>obtuse angled</em> .</li> </ul> <h2>Take off</h2> <ol> <li>Continue the exploration when the triangles are isosceles or equilateral.</li> <li>Without doing practical work, can you identify the kind of triangle from the side lengths given? <ol type="a"> <li>20,16,12</li> <li>14,12,22</li> <li>8,11,13</li> <li>4,5.5,6.5</li> <li>30,40,50</li> <li>10,11,12</li> </ol> </li> <li>How will you decide if a particular angle in a triangle with sides of given length is acute, right or obtuse without drawing the triangle?</li> </ol> <br></br></mdoxml> 5 3 0 0 1 0 0 A description of some experiments in which you can make discoveries about triangles. 2D Geometry, Shape and Space Shape, space & measures - generally 2D Geometry, Shape and Space Triangle theorems Using, Applying and Reasoning about Mathematics Investigations