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	<title>Linear Equations</title>
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			<h1>Linear Equations</h1> </center>
		<p align="center" class="larger">A <b>linear</b> equation is an <a href="definitions.html">equation</a> for a straight <b>line</b></p>
		<div class="example">
			<h3>These are all linear equations:</h3>
			<table border="0" align="center">
				<tr>
					<td><img src="../images/style/yes.svg" alt="yes" /></td>
					<td>&nbsp;</td>
					<td>y = 2x + 1</td>
				</tr>
				<tr>
					<td><img src="../images/style/yes.svg" alt="yes" /></td>
					<td>&nbsp;</td>
					<td>5x = 6 + 3y</td>
				</tr>
				<tr>
					<td><img src="../images/style/yes.svg" alt="yes" /></td>
					<td>&nbsp;</td>
					<td>y/2 = 3 &minus; x</td>
				</tr>
			</table>
		</div>
		
		<p>Let us look more closely at one example:</p>
		<div class="example">
			<h3>Example: <b>y = 2x + 1</b> is a linear equation:</h3>
			<p align="center"><img src="images/graph-line.svg" alt="line on a graph" style="background-color:white;" /></p>
			<p align="center">The graph of <b>y = 2x+1</b> is a straight line</p>
			<p align="center">&nbsp;</p>
			<ul>
				<li>When x increases, y increases <b>twice as fast</b>, so we need <span class="large">2x</span></li>
				<li>When x is 0, y is already 1. So <span class="large">+1</span> is also needed</li>
				<li>And so: <span class="large">y = 2x + 1</span></li>
			</ul>
			<p>Here are some example values:</p>
<table border="0" align="center">
			<tr align="center">
				<th width="50">x</th>
				<th width="200">y = 2x + 1</th>
			</tr>
			<tr align="center">
				<td width="50"><b>-1</b></td>
				<td width="200">y = 2 &times; (-1) + 1 = <b>-1</b></td>
			</tr>
			<tr align="center">
				<td width="50"><b>0</b></td>
				<td width="200">y = 2 &times; 0 + 1 = <b>1</b></td>
			</tr>
			<tr align="center">
				<td width="50"><b>1</b></td>
				<td width="200">y = 2 &times; 1 + 1 = <b>3</b></td>
			</tr>
			<tr align="center">
				<td width="50"><b>2</b></td>
				<td width="200">y = 2 &times; 2 + 1 = <b>5</b></td>
			</tr>
			</table>
			
			<p>Check for yourself that those points are part of the line above!</p>
		</div>
		<h2>Different Forms</h2>
		<p>There are many ways of writing linear equations, but they usually have <b>constants</b> (like &quot;2&quot; or &quot;c&quot;) and must have simple <b>variables</b> (like &quot;x&quot; or &quot;y&quot;).</p>
		<div class="example">
			<h3>Examples: These are  linear equations:</h3>
<table border="0" align="center">
			<tr>
				<td><img src="../images/style/yes.svg" alt="yes" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">y = 3x &minus; 6</span></td>
			</tr>
			<tr>
				<td><img src="../images/style/yes.svg" alt="yes" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">y &minus; 2 = 3(x + 1)</span></td>
			</tr>
			<tr>
				<td><img src="../images/style/yes.svg" alt="yes" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">y + 2x &minus; 2 = 0</span></td>
			</tr>
			<tr>
				<td><img src="../images/style/yes.svg" alt="yes" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">5x = 6</span></td>
			</tr>
			<tr>
				<td><img src="../images/style/yes.svg" alt="yes" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">y/2 = 3</span></td>
			</tr>
			</table>
		</div>
		<p><b>But</b> the variables (like &quot;x&quot; or &quot;y&quot;) in Linear Equations do <b>NOT</b> have:</p>
		<ul>
			<li><a href="../exponent.html">Exponents</a> (like the 2 in x<sup>2</sup>)</li>
			<li><a href="../square-root.html">Square roots</a>, <a href="../numbers/cube-root.html">cube roots</a>, etc</li>
		</ul>
		<div class="example">
			<h3>Examples: These are <b>NOT</b> linear equations:</h3>
<table border="0" align="center">
			<tr>
				<td><img src="../images/style/no.svg" alt="not" /></td>
				<td>&nbsp;</td>
				<td><span class="larger">y<sup>2</sup> &minus; 2 = 0</span></td>
			</tr>
			<tr>
				<td><img src="../images/style/no.svg" alt="not" /></td>
				<td>&nbsp;</td>
				<td class="larger">3&radic;x &minus; y = 6</td>
			</tr>
			<tr>
				<td><img src="../images/style/no.svg" alt="not" /></td>
				<td>&nbsp;</td>
				<td class="larger">x<sup>3</sup>/2 = 16</td>
			</tr>
			</table>
		</div>
		<h2>Slope-Intercept Form</h2>
		<p>The most common form is the <a href="../equation_of_line.html">slope-intercept equation of a straight line</a>: </p>
		
		<p style="float:left; margin: 0 10px 5px 0;"><img src="images/y-mxpb-graph.svg" alt="y=mx+b graph" /></p>
		<table width="300" border="0" class="larger" align="center">
			<tr>
				<td colspan="2"><img src="images/y-mxpb.svg" alt="Equation of a Straight Line y=mx+b" /></td>
			</tr>
			<tr>
				<td align="center"><a href="../geometry/slope.html" class="larger">Slope</a> (or <a href="../gradient.html" class="larger">Gradient</a>)</td>
				<td align="right"><a href="../y_intercept.html" class="larger">Y 
					Intercept</a></td>
			</tr>
			<tr>
				<td colspan="2" align="center">&nbsp;</td>
			</tr>
		</table>
		<div style="clear:both"></div>
		
		<div class="example">
			<h3>Example: y = 2x + 1</h3>
			
			<ul>
				<li>Slope: <b>m = 2</b></li>
				<li>Intercept: <b>b = 1</b></li>
			</ul>
		</div>
		<table width="80%" border="0" align="center">
			<tr>
				<td>
					<a href="../data/straight_line_graph.html"><img src="../data/images/equn-line-anim.gif" alt="Animation" width="150" height="88" /></a>
				</td>
				<td>&nbsp;</td>
				<td>
					<h3>Play With It !</h3>
					<p>You can see the effect of different values of <b>m</b> and <b>b</b> at <a href="../data/straight_line_graph.html">Explore the Straight Line Graph</a></p>
				</td>
			</tr>
		</table>
		
		<h2>Point-Slope Form</h2>
		<p>Another common one is the <a href="line-equation-point-slope.html">Point-Slope Form</a> of the equation of a straight line:</p>
		<table border="0" align="center">
			<tr>
				<td class="larger">
					<p align="center"><span class="largest">y &minus; y<sub>1</sub> = m(x &minus; x<sub>1</sub>)</span></p>
				</td>
				<td class="larger">&nbsp;</td>
				<td><img src="../data/images/graph-point-slope-a-sm.gif" alt="Point-Slope Form" width="120" height="98" /></td>
			</tr>
		</table>
		<div class="example">
			<h3>Example: y &minus; 3 = (&frac14;)(x &minus; 2)</h3>
			<p>It is in the form <b>y &minus; y<sub>1</sub> = m(x &minus; x<sub>1</sub>)</b> where:</p>
			<ul>
				<li>y<sub>1</sub> = 3</li>
				<li>m = &frac14;</li>
				<li>x<sub>1</sub> = 2</li>
			</ul>
		</div>
		
		<h2>General Form</h2>
		<p>And there is also the <a href="line-equation-general-form.html">General Form</a> of the equation of a straight line:</p>
		<table border="0" align="center">
			<tr>
				<td>
					<p align="center" class="largest">Ax + By + C = 0</p>
				</td>
			</tr>
			<tr>
				<td>(A and B cannot both be 0)</td>
			</tr>
		</table>
		<div class="example">
			<h3>Example: 3x + 2y &minus; 4 = 0</h3>
			<p>It is in the form <b>Ax + By + C = 0</b> where: </p>
			<ul>
				<li>A = 3</li>
				<li>B = 2</li>
				<li>C = &minus;4</li>
			</ul>
		</div>
		<p>There are other, less common forms as well.</p>
		<h2>As a  Function</h2>
		<p>Sometimes a linear equation is written as a <a href="../sets/function.html">function</a>, with <span class="large">f(x)</span> instead of <span class="large">y</span>:</p>
		<div class="simple">
			<table border="0" align="center">
				<tr>
					<td width="300" align="center" class="larger"><span class="large">y = 2x &minus; 3</span></td>
				</tr>
				<tr>
					<td align="center" class="larger"><span class="large">f(x) = 2x &minus; 3</span></td>
				</tr>
				<tr>
					<td align="center" class="larger">These are the same!</td>
				</tr>
			</table>
		</div>
		<p>And functions are not always written using f(x):</p>
		<div class="simple">
			<table border="0" align="center">
				<tr>
					<td width="300" align="center" class="larger"><span class="large">y = 2x &minus; 3</span></td>
				</tr>
				<tr>
					<td align="center" class="larger"><span class="large">w(u) = 2u &minus; 3</span></td>
				</tr>
				<tr>
					<td align="center" class="larger"><span class="large">h(z) = 2z &minus; 3</span></td>
				</tr>
				<tr>
					<td align="center" class="larger">These are also the same!</td>
				</tr>
			</table>
		</div>
		<h2>The Identity Function</h2>
		<p>There is a special linear function called the &quot;Identity Function&quot;:</p>
		<p align="center"> <span class="large">f(x) = x</span></p>
		<p>And here is its graph:</p>
		<p align="center"><img src="images/graph-line-x.gif" alt="Identity Function" width="220" height="222" /><span class="large"><br />
		                It makes a 45&deg; (its slope is 1)</span></p>
		<p>It is called &quot;Identity&quot; because what comes out is <b>identical</b> to what goes in:</p>
		<div class="simple">
			<table border="0" align="center">
				<tr>
					<th width="60" align="center">In</th>
					<th width="60" align="center">Out</th>
				</tr>
				<tr>
					<td width="60" align="center">0</td>
					<td width="60" align="center">0</td>
				</tr>
				<tr>
					<td width="60" align="center">5</td>
					<td width="60" align="center">5</td>
				</tr>
				<tr>
					<td width="60" align="center">&minus;2</td>
					<td width="60" align="center">&minus;2</td>
				</tr>
				<tr>
					<td width="60" align="center">...etc</td>
					<td width="60" align="center">...etc</td>
				</tr>
			</table>
		</div>
		<h2>Constant Functions</h2>
		<p>Another special type of linear function is the Constant Function ... it is a horizontal line: </p>
		<p align="center"><img src="images/function-constant.gif" alt="Constant Function" width="218" height="196" /></p>
		<p align="center" class="large">f(x) = C</p>
		<p>No matter what value of &quot;x&quot;, f(x) is always equal to some constant value. </p>
		<h2>Using Linear Equations</h2>
		<p>You may like to read some of the things you can do with lines:</p>
		<div class="bigul">
			<ul>
				<li><a href="line-midpoint.html">Finding the Midpoint of a Line Segment</a></li>
				<li><a href="line-parallel-perpendicular.html">Finding Parallel and Perpendicular Lines</a></li>
				<li><a href="line-equation-2points.html">Finding the Equation of a Line from 2 Points</a>
					<br />
					<br /> </li>
			</ul>
		</div>
		<div class="questions">
			<script type="text/javascript">
				getQ(519, 2074, 1158, 2075, 520, 1159, 2455, 2456, 2457, 2458);
			</script>&nbsp; </div>
		<div class="related"> <a href="../gradient.html">Gradient (Slope) of a Straight Line</a> <a href="../y_intercept.html">Y Intercept of a Straight Line</a> <a href="distance-2-points.html">Distance Between 2 Points</a> <a href="finding-intercepts-equation.html">Finding Intercepts From an Equation</a> <a href="../data/graphs-index.html">Graph Menu</a> <a href="index.html">Algebra Menu</a></div>
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