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            <h1 align="center">Finding a Side in a Right-Angled Triangle</h1>
            <h2>Find a Side when we know another Side and Angle</h2>
            <p>We can find an unknown side in a <a href="../right_angle_triangle.html">right-angled triangle</a> when we know:</p>
            <ul>
              <li>one length, and</li>
              <li>one angle (apart from the right angle, that is).</li>
            </ul>
        <div class="example">
            	
         	<p style="float:right; margin: 0 0 5px 10px;"><img src="images/trig-2example2.gif" alt="Ship Anchor Triangle" width="242" height="170" /></p>
         	<h3>Example: Depth to the Seabed</h3>
         	<p>The ship is anchored on the seabed.</p>
         	<p>We know:</p>
         	<ul>
         		<li>the  cable length (30 m), and</li>
         		<li>the angle the cable makes with the seabed</li>
       		</ul>
         	<p> So we should be able to find the depth!</p>
         	<p><b>But How?</b></p>
         	
         	<div style="clear:both"></div>
       	</div>
        <p align="center"><span class="large">The answer is to use <a href="../sine-cosine-tangent.html">Sine, Cosine <i>or</i> Tangent</a>! </span></p>
        <h3>But Which One?</h3>
        <p>Which one of <b>Sine, Cosine or Tangent</b> to use?</p>
<p style="float:right; margin: 0 0 5px 10px;"><img src="images/adjacent-opposite-hypotenuse.svg" alt="triangle showing Opposite, Adjacent and Hypotenuse" /></p>        <p>To find out which, first we give <b>names</b> to the sides:</p>
  
				
				<ul>
					<li><b>Adjacent</b> is adjacent (next to) to the angle,<br />
					</li>
					<li><b>Opposite</b> is opposite the angle, <br />
					</li>
					<li>and the longest side is the <b>Hypotenuse</b>.</li>
				</ul>
				<div style="clear:both"></div>
<p>Now, for <b>the side we already know</b> and the <b>side we are trying to find</b>, we use the first letters of  their names and the phrase <a href="sohcahtoa.html">&quot;SOHCAHTOA&quot;</a> to decide which function:</p>
	
				<table border="0" align="center">
					<tr>
						<td width="100"><div align="left"><b><i>SOH...</i></b></div></td>
						<td width="20">&nbsp;</td>
						<td><b>S</b>ine: sin(&theta;) = <b>O</b>pposite / <b>H</b>ypotenuse</td>
					</tr>
					<tr>
						<td><div align="center"><b><i>...CAH...</i></b></div></td>
						<td>&nbsp;</td>
						<td><b>C</b>osine: cos(&theta;) = <b>A</b>djacent / <b>H</b>ypotenuse</td>
					</tr>
					<tr>
						<td><div align="right"><b><i>...TOA</i></b></div></td>
						<td>&nbsp;</td>
						<td><b>T</b>angent: tan(&theta;) = <b>O</b>pposite / <b>A</b>djacent</td>
					</tr>
				</table>
				
				<p>Like this:</p>
        
<div class="example">
    <p style="float:right; margin: 0 0 5px 10px;"><img src="images/trig-2example2.gif" alt="Ship Anchor Triangle" width="242" height="170" /><br>
<img src="images/adjacent-opposite-hypotenuse.svg" alt="triangle showing Opposite, Adjacent and Hypotenuse" /></p>
   	<h3>Example: Depth to the Seabed (Continued)</h3>
    <p>&nbsp;</p>
    <p>Find the <b>names</b> of the two sides  we are working on: </p>
    
<ul>
      <li>the side we know is the <b>Hypotenuse</b></li>
                <li>the side we want to find is <b>Opposite</b>  the angle (check for yourself that &quot;d&quot; is opposite  the angle 39&deg;)</li>
    </ul><div style="clear:both"></div>
<p>Now use the first letters of those two sides  (<b>O</b>pposite and<b> H</b>ypotenuse) and the phrase &quot;SOHCAHTOA&quot; which gives us &quot;<b>SOH</b>cahtoa&quot;, which tells us we need to use <b>Sine</b>:</p>
              <p class="center larger"><b>S</b>ine: sin(&theta;) = <b>O</b>pposite / <b>H</b>ypotenuse</p>
              <p>&nbsp;</p>
              <p>Now  put in the values we know:</p>
             
              <p class="center larger">sin(39&deg;) = d / 30</p>
							<p>&nbsp;</p>
							<p>And  solve that equation!</p>
							<p>But how do we calculate <b>sin(39&deg;)</b> ... ?</p>
							<table border="0" align="center">
								<tr>
									<td><img src="images/calculator-sin-cos-tan.jpg" alt="calculator-sin-cos-tan" width="118" height="75" /></td>
									<td><p>Use your calculator. <br>
										Type in 39 and then use the &quot;sin&quot; key. <br>
										That's easy!</p></td>
								</tr>
		</table>
		<p align="center" class="larger">sin(39&deg;) = 0.6293... </p>
							<p>&nbsp;</p>
							<p>So now we have:</p>
							<p align="center"> <span class="larger">0.6293... =  d / 30</span></p>
							<p>&nbsp;</p>
							<p>Now we rearrange it a little bit, and solve:</p>
							<div class="tbl">
								<div class="row"><span class="left">Start with:</span><span class="right">0.6293... =  d / 30</span></div>
								<div class="row"><span class="left">Swap sides:</span><span class="right">d / 30 = 0.6293... </span></div>
								<div class="row"><span class="left">Multiply both sides by 30:</span><span class="right">d = 0.6293... x 30 </span></div>
								<div class="row"><span class="left">Calculate:</span><span class="right">d = <b>18.88</b> to 2 decimal places</span></div>
		</div>
							<p align="center" class="large"> <span class="larger">The depth the anchor ring lies beneath the hole is <b>18.88 m</b></span> </p>
  </div>
           
            <h2>Step By Step</h2>
            <p>These are the four steps to follow: </p>
            <ul>
              <li><b>Step 1</b> Find the names of the two sides we are using,  one we are trying to find and one we already know, out of Opposite, Adjacent and Hypotenuse.</li>
            </ul>
        <ul>
              <li><b>Step 2</b> Use SOHCAHTOA to decide which one of Sine, Cosine <b>or</b> Tangent to use in this question.</li>
  </ul>
            <ul>
            	<li><b>Step 3</b> For Sine write down  Opposite/Hypotenuse, for Cosine write down  Adjacent/Hypotenuse <b>or</b> for Tangent write down  Opposite/Adjacent. One of the values is the unknown length.</li>
            </ul>
            <ul>
              <li><b>Step 4</b> Solve using your  calculator and your skills with <a href="introduction-multiply.html">Algebra</a>.</li>
        </ul>
            <h2>Examples</h2>
            <p>Let’s look at a few more examples:            </p>
						<div class="example">
							<p style="float:right; margin: 0 0 5px 10px;"><img src="images/trig-flagpole.gif" width="265" height="147" alt="trig example airplane 1000, 60 degrees" /></p>
							<h3>Example: find the height of the plane. </h3>
							
							<p>We know the distance to the plane is 1000<br>
							And the angle is								60&deg;							</p>
							<p>What is the plane's height?</p>
							<p>Careful! The <b>60&deg;</b> angle is at the top, so the &quot;h&quot; side is <b>Adjacent</b> to the angle!</p>
							
							<ul>
								<li><b>Step 1</b> The two sides we are using are <b>A</b>djacent (h) and  <b>H</b>ypotenuse (1000).</li>
							</ul>
							<ul>
								<li><b>Step 2</b> SOH<b>CAH</b>TOA tells us to use <b>C</b>osine.</li>
							</ul>
							<ul>
								<li><b>Step 3</b> Put our values into  the Cosine equation:
									
									<p class="larger center">cos 60&deg; = Adjacent / Hypotenuse <br>
									= h / 1000</p>
								</li>
							</ul>
							<ul>
								<li><b>Step 4</b> Solve:</li>
							</ul>
<div class="tbl">
<div class="row"><span class="left">Start with:</span><span class="right"><b>cos 60&deg; = h/1000</b></span></div>
<div class="row"><span class="left">Swap:</span><span class="right"><b>h/1000</b> = <b>cos 60&deg;</b></span></div>
<div class="row"><span class="left">Calculate cos 60&deg;:</span><span class="right"><b>h/1000</b> = <b>0.5</b></span></div>
<div class="row"><span class="left">Multiply both sides by 1000:</span><span class="right"><b>h</b> = <b>0.5 x 1000 </b></span></div>
<div class="row"><span class="left">&nbsp;</span><span class="right"><b>h = 500</b></span></div>
</div>
<p class="center larger"> The height of the plane = <b>500 meters</b></p>
						</div>
						<div class="example">
							<p style="float:right; margin: 0 0 5px 10px;"><img src="images/triangle-7-y-35.gif" width="120" height="154" alt="triangle 7, y and 35 degrees" /></p>
							<h3>Example: Find the length of the side <b>y</b>:</h3>
							
							<ul>
								<li><b>Step 1</b> The two sides we are using are <b>O</b>pposite (y) <br>
								and <b>A</b>djacent (7).</li>
							</ul>
							<ul>
								<li><b>Step 2</b> SOHCAH<b>TOA</b> tells us to use <b>T</b>angent.</li>
							</ul>
							<ul>
								<li><b>Step 3</b> Put our values into the tangent function: <p class="larger center">tan&nbsp;53&deg;&nbsp;=&nbsp;Opposite/Adjacent&nbsp;<br>
								=&nbsp;y/7</p></li>
							</ul>
							<ul>
								<li><b>Step 4</b> Solve:</li>
							</ul>
<div class="tbl">
<div class="row"><span class="left">Start with:</span><span class="right">tan 53&deg; = y/7</span></div>
<div class="row"><span class="left">Swap:</span><span class="right">y/7 = tan 53&deg;</span></div>
<div class="row"><span class="left">Multiply both sides by 7:</span><span class="right">y = 7 tan 53&deg;</span></div>
<div class="row"><span class="left">Calculate:</span><span class="right">y = 7 x 1.32704...</span></div>
<div class="row"><span class="left">&nbsp;</span><span class="right">y = <b>9.29</b> (to 2 decimal places)</span></div>
</div>
<p class="center larger">Side y = <b>9.29</b></p>
						</div>
          
						<div class="example">
							
							<p style="float:right; margin: 0 0 5px 10px;"><img src="images/trig-tent.gif" width="171" height="172"  alt="trig tower 70 m and angle 68 degrees" /></p><h3>Example: Radio Mast</h3>
							<p>There is a mast that is 70 meters high. </p>
							<p>A wire goes to the top of the mast at an angle of 68&deg;.</p>
							<p>How long is the wire?</p>
							<ul>
								<li><b>Step 1</b> The two sides we are using are <b>O</b>pposite (70) and <b>H</b>ypotenuse (w).</li>
							</ul>
							<ul>
								<li><b>Step 2</b> <b>SOH</b>CAHTOA tells us to use <b>S</b>ine.</li>
							</ul>
							<ul>
								<li><b>Step 3</b> Write down: 
									<p class="larger center">sin 68&deg; = 70/w</p></li>
							</ul>
							<ul>
								<li><b>Step 4</b> Solve:</li>
							</ul>
							<p>The  unknown length is on the bottom (the denominator) of the fraction! </p>
							<p>So we need to follow a slightly different approach when solving:</p>
<div class="tbl">
<div class="row"><span class="left">Start with:</span><span class="right">sin 68&deg; = 70/w </span></div>
<div class="row"><span class="left">Multiply both sides by w:</span><span class="right">w &times; (sin 68&deg;) = 70 </span></div>
<div class="row"><span class="left">Divide both sides by &quot;sin 68&deg;&quot;:</span><span class="right">w  = 70 / (sin 68&deg;)</span></div>
<div class="row"><span class="left">Calculate:</span><span class="right">w  = 70 / 0.9271...</span></div>
<div class="row"><span class="left">&nbsp;</span><span class="right">w = 75.5 m (to 1 place)</span></div>
</div>

							<p class="center larger"> The length of the wire = <b>75.5 m</b></p>
						</div>
 <p>&nbsp;</p>           
                
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