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+<!DOCTYPE HTML PUBLIC "-//w3c//dtd html 4.0 transitional//en">
+<html>
+<head>
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+  <meta name="Author" content="C. L. Davis">
+  <title>Electricity - Electric Field - Physics 299</title>
+</head>
+<body style="color: rgb(0, 0, 0); background-color: rgb(255, 255, 255);"
+ alink="#ff0000" link="#0000ee" vlink="#551a8b">
+<center>
+<h1> <img src="ULPhys1.gif" align="texttop" height="50" width="189"></h1>
+</center>
+<center>
+<h1>Electric Field</h1>
+</center>
+<center><img src="celticbar.gif" height="22" width="576"><br>
+<br>
+<font color="#ff0000"><i>"Discovery consists of seeing what everybody
+has
+seen and thinking what nobody has thought"</i></font><br>
+Albert von Szent-Gyorgyi<br>
+</center>
+<img src="netbar.gif" align="middle" height="40" width="100%"> <br>
+&nbsp;
+<ul>
+  <li>When two charges exert a force on each other, through what means
+is the force transmitted ?</li>
+</ul>
+<div style="margin-left: 40px;">The simplest assumption is "<span
+ style="font-style: italic; font-weight: bold;">action-at-a-distance</span>".&nbsp;
+They just "<span style="font-weight: bold; font-style: italic;">know</span>"
+about each other's presence.&nbsp; If one of the charges moves the
+other charge is aware of this immediately.&nbsp; This sounds like
+"magic" with today's scientific understanding.&nbsp; <br>
+The mechanism to remove the magic was proposed by <a
+ href="http://www.bbc.co.uk/history/historic_figures/faraday_michael.shtml">
+Michael Faraday&nbsp;</a> <a
+ href="http://www.rigb.org/contentControl?action=detail&amp;section=1391&amp;pg=4&amp;filter=pd"><img
+ alt="faraday" src="faraday.jpg"
+ style="border: 0px solid ; width: 80px; height: 121px;" align="middle"></a>
+- the <span style="font-weight: bold;">electric field</span>.&nbsp;
+Every charge creates its own electric field in the space around it
+(actually the space around it means all space); other charges then
+interact with this field.&nbsp; When a charge moves it creates a
+disturbance in its electric field which is propagated away from the
+charge at the speed of light.<br>
+<br>
+<img style="width: 31px; height: 30px;" alt="exclamation"
+ src="exclamation-icon.gif"> In developing his theory of gravitation
+Newton was aware of the same "<span
+ style="font-style: italic; font-weight: bold;">action-at-a-distance</span>"
+problem.&nbsp; To solve the problem, in a similar manner, we introduce
+the concept of the gravitational field.<br>
+<br>
+<img style="width: 31px; height: 30px;" alt="exclamation"
+ src="exclamation-icon.gif"> Note that the concept of the electric
+field is a convenient construct to describe electromagnetic
+phenomena,
+but its true existence is neither proven nor essential.</div>
+<ul>
+  <br>
+&nbsp;
+  <li> The electric field vector, <span style="font-weight: bold;">E</span>,&nbsp;
+is defined in the following way.&nbsp; If a charge, q, feels a force <b><u>F</u></b>,
+then
+the
+electric field, <b><u>E</u></b>, at the location of the charge
+is
+given by</li>
+  <center>
+  <p><br>
+  <b><u><img alt="" src="elec_field_eqn1.gif"
+ style="width: 43px; height: 44px;"></u></b><br>
+  </p>
+  </center>
+  <br>
+  <li> Units of electric field are&nbsp; Newtons/Coulomb (N/C) or (as
+we shall see later) Volts/metre (V/m).</li>
+  <br>
+&nbsp;
+  <li> If the electric field felt by the charge q is due to
+a point
+charge Q, located a distance R from q, then its magnitude is given by</li>
+  <br>
+  <center>
+  <p><img alt="" src="elec_field_eqn2.gif"
+ style="width: 55px; height: 41px;"><br>
+  </p>
+  </center>
+  <br>
+  <li> The electric field due to many point charges is given by the
+vector
+sum of the fields due to the individual charges</li>
+  <br>
+  <center>
+  <p><b><u>E</u></b>&nbsp; =&nbsp; <b><u>E</u></b><sub>1</sub>&nbsp; +
+  <b><u>
+E</u></b><sub> 2</sub> +&nbsp; <b><u>E</u></b> <sub>3</sub> +&nbsp;
+.....</p>
+  </center>
+  <br>
+  <p>In performing this sum the direction of each <b><u>E</u></b>&nbsp;
+is
+the
+same as the force felt by a <b><i>positive</i></b> charge. <br>
+&nbsp; </p>
+  <li> The electric field in a region of space can be represented by
+electric field lines otherwise known as "<b><i>lines of force</i></b>".</li>
+  <br>
+  <center>
+  <p><img src="efield_lines1.gif" align="texttop" height="221"
+ width="370"> </p>
+  </center>
+  <br>
+  <p>The direction of the electric field line is the same as that of
+the force
+felt by a positive charge.&nbsp; The density of the field lines
+provides a
+measure of the magnitude of the field.&nbsp; FIeld lines alway begin on
+positive
+charges and end on negative charges; they cannot be left 'hanging' in
+empty
+space. <br>
+  </p>
+</ul>
+<div style="text-align: center;"><img
+ style="width: 745px; height: 254px;" alt="efield_lines3.jpg"
+ src="efield_lines3.jpg"><br>
+</div>
+<ul>
+  <p><br>
+  </p>
+  <center>
+  <p>The diagrams above display the electric field lines in the
+vicinity of
+two equal point charges.</p>
+  </center>
+</ul>
+<div style="text-align: left;"><img src="netbar.gif" height="40"
+ width="100%">
+</div>
+<center><br>
+<span style="font-size: 12pt; font-family: &quot;Times New Roman&quot;;"><span
+ style="color: rgb(255, 0, 0); font-style: italic;">"Two things are
+infinite: the universe and human
+stupidity; and I'm not sure about the universe."</span><br style="">
+<!--[if !supportLineBreakNewLine]-->Albert Einstein</span><br>
+<br>
+<img src="celticbar.gif" height="22" width="576"> <br>
+&nbsp;
+<p><i>Dr. C. L. Davis</i> <br>
+<i>Physics Department</i> <br>
+<i>University of Louisville</i> <br>
+<i>email</i>: <a href="mailto:c.l.davis@louisville.edu">c.l.davis@louisville.edu</a>
+<br>
+&nbsp; </p>
+<p><img src="header-index.gif" height="51" width="92">
+</p>
+</center>
+<p><br>
+</p>
+</body>
+</html>