davisnotes/mag_intro.html

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    <title>Magnetism - Introduction - Physics 299</title>
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    <center>
      <h1>Introduction to Magnetism <br>
      </h1>
    </center>
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      <br>
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      <div class="copy-paste-block"><font color="#ff0000"><i><span
              class="bqQuoteLink">"</span></i></font><font
          color="#ff0000"><i><span class="bqQuoteLink">Physics Is
              Imagination In A Straight Jacket</span></i><span></span>"</font><br>
      </div>
      <font color="#ff0000"><i> </i><font color="#000000">John Moffat</font></font><br>
    </center>
    <img src="netbar.gif" align="middle" height="40" width="100%"> <br>
    <ul>
    </ul>
    <div align="center"><img alt="fig1" src="mag_intro_fig1.jpg"
        height="243" width="325"></div>
    <ul>
      <br>
      <li>As we will see shortly, Electricity and Magnetism are
        different aspects of the same basic physical phenomenon - hence
        the description <a
          href="http://www.britannica.com/EBchecked/topic/183324/electromagnetism">Electromagnetism.</a>&nbsp;&nbsp;</li>
    </ul>
    <ul>
      <li>However, initially it is convenient to treat magnetism in a
        separate, but similar, manner to electricity.&nbsp; In other
        words we will define, magnetic forces, magnetic fields and
        magnetic dipoles exactly as we did the electric variables.</li>
    </ul>
    <ul>
      <li>After this initial description we will develop the
        relationship between magnetism and electricity through Faraday's
        Law of Induction and the Displacement Current, leading finally
        to a complete description of (classical) electromagnetism in the
        form of <a href="http://www.maxwells-equations.com/">Maxwell's
          equations</a>.</li>
    </ul>
    <ul>
      <li>So our starting point in describing magnetism will be the
        assumption of the existence of a magnetic field, <b>B</b>, the
        origin of which will be described later.</li>
    </ul>
    <ul>
      <li><img alt="fig3" src="mag_intro_fig3.jpg" align="right"
          height="193" width="257">Exactly as for the electric field <b>E</b>,
        we will assume that the <b>B</b> field can be represented by
        field lines where,</li>
    </ul>
    <ul>
      <ul>
        <li>the tangent to a field line gives the direction of <b>B</b>
          at that point and</li>
      </ul>
    </ul>
    <ul>
      <ul>
        <li>the number of field lines per unit cross sectional area is
          proportional to the strength of <b>B</b>.</li>
      </ul>
    </ul>
    <ul>
      <li><img alt="exclamation" src="exclamation-icon.gif" height="30"
          width="31"> It is important to realize immediately that unlike
        electric field lines, magnetic field lines <u><i><b>DO NOT</b></i></u>
        represent the direction of the force acting on a charged
        particle.</li>
    </ul>
    <blockquote><img alt="exclamation" src="exclamation-icon.gif"
        height="30" width="31">&nbsp; The magnetic phenomenon most
      familiar to most people is that of permanent magnetism -
      refrigerator magnets etc.&nbsp; As it happens, permanent magnetism
      is not a simple topic to explain.&nbsp; In fact a complete
      description requires a detailed knowledge of the quantum behavior
      of materials.&nbsp; For this reason we will barely mention
      permanent magnets in this course. <br>
      <br>
      <div align="center"><img alt="fig2" src="mag_intro_fig2.jpg"
          height="202" width="300"><br>
      </div>
    </blockquote>
    <ul>
    </ul>
    <img src="netbar.gif" height="40" width="100%">
    <center>
      <p style="color: rgb(255, 0, 0); font-style: italic;"
        class="MsoNormal">
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          charset=windows-1252">
      </p>
      <font color="#ff0000"><i>
          <meta http-equiv="content-type" content="text/html;
            charset=windows-1252">
          Q: What is the name of the first electricity detective?<br>
          A: Sherlock Ohms </i></font><br>
      <br>
      &nbsp;<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>
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init commit 2016-05-20 00:56:25 -04:00			`<!DOCTYPE html PUBLIC "-//w3c//dtd html 4.0 transitional//en">`
			`<html>`
			`<head>`
			`<meta http-equiv="Content-Type" content="text/html;`
			`charset=windows-1252">`
			`<meta name="GENERATOR" content="Mozilla/4.7 [en] (X11; U; OSF1 V4.0`
			`alpha) [Netscape]">`
			`<meta name="Author" content="C. L. Davis">`
			`<title>Magnetism - Introduction - Physics 299</title>`
			`<meta content="C. L. Davis" name="author">`
			`</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>Introduction to Magnetism <br>`
			`</h1>`
			`</center>`
			`<center><img src="celticbar.gif" height="22" width="576"><br>`
			`<br>`
			`<font color="#ff0000"><i>`
			`<meta http-equiv="content-type" content="text/html;`
			`charset=windows-1252">`
			`</i></font><font color="#ff0000"><i>`
			`<meta http-equiv="content-type" content="text/html;`
			`charset=windows-1252">`
			`</i></font>`
			`<div class="copy-paste-block"><font color="#ff0000"><i><span`
			`class="bqQuoteLink">"</span></i></font><font`
			`color="#ff0000"><i><span class="bqQuoteLink">Physics Is`
			`Imagination In A Straight Jacket</span></i><span></span>"</font><br>`
			`</div>`
			`<font color="#ff0000"><i> </i><font color="#000000">John Moffat</font></font><br>`
			`</center>`
			`<img src="netbar.gif" align="middle" height="40" width="100%"> <br>`
			`<ul>`
			`</ul>`
			`<div align="center"><img alt="fig1" src="mag_intro_fig1.jpg"`
			`height="243" width="325"></div>`
			`<ul>`
			`<br>`
			`<li>As we will see shortly, Electricity and Magnetism are`
			`different aspects of the same basic physical phenomenon - hence`
			`the description <a`
			`href="http://www.britannica.com/EBchecked/topic/183324/electromagnetism">Electromagnetism.</a>  </li>`
			`</ul>`
			`<ul>`
			`<li>However, initially it is convenient to treat magnetism in a`
			`separate, but similar, manner to electricity.  In other`
			`words we will define, magnetic forces, magnetic fields and`
			`magnetic dipoles exactly as we did the electric variables.</li>`
			`</ul>`
			`<ul>`
			`<li>After this initial description we will develop the`
			`relationship between magnetism and electricity through Faraday's`
			`Law of Induction and the Displacement Current, leading finally`
			`to a complete description of (classical) electromagnetism in the`
			`form of <a href="http://www.maxwells-equations.com/">Maxwell's`
			`equations</a>.</li>`
			`</ul>`
			`<ul>`
			`<li>So our starting point in describing magnetism will be the`
			`assumption of the existence of a magnetic field, <b>B</b>, the`
			`origin of which will be described later.</li>`
			`</ul>`
			`<ul>`
			`<li><img alt="fig3" src="mag_intro_fig3.jpg" align="right"`
			`height="193" width="257">Exactly as for the electric field <b>E</b>,`
			`we will assume that the <b>B</b> field can be represented by`
			`field lines where,</li>`
			`</ul>`
			`<ul>`
			`<ul>`
			`<li>the tangent to a field line gives the direction of <b>B</b>`
			`at that point and</li>`
			`</ul>`
			`</ul>`
			`<ul>`
			`<ul>`
			`<li>the number of field lines per unit cross sectional area is`
			`proportional to the strength of <b>B</b>.</li>`
			`</ul>`
			`</ul>`
			`<ul>`
			`<li><img alt="exclamation" src="exclamation-icon.gif" height="30"`
			`width="31"> It is important to realize immediately that unlike`
			`electric field lines, magnetic field lines <u><i><b>DO NOT</b></i></u>`
			`represent the direction of the force acting on a charged`
			`particle.</li>`
			`</ul>`
			`<blockquote><img alt="exclamation" src="exclamation-icon.gif"`
			`height="30" width="31">  The magnetic phenomenon most`
			`familiar to most people is that of permanent magnetism -`
			`refrigerator magnets etc.  As it happens, permanent magnetism`
			`is not a simple topic to explain.  In fact a complete`
			`description requires a detailed knowledge of the quantum behavior`
			`of materials.  For this reason we will barely mention`
			`permanent magnets in this course. <br>`
			`<br>`
			`<div align="center"><img alt="fig2" src="mag_intro_fig2.jpg"`
			`height="202" width="300"><br>`
			`</div>`
			`</blockquote>`
			`<ul>`
			`</ul>`
			`<img src="netbar.gif" height="40" width="100%">`
			`<center>`
			`<p style="color: rgb(255, 0, 0); font-style: italic;"`
			`class="MsoNormal">`
			`<meta http-equiv="content-type" content="text/html;`
			`charset=windows-1252">`
			`</p>`
			`<font color="#ff0000"><i>`
			`<meta http-equiv="content-type" content="text/html;`
			`charset=windows-1252">`
			`Q: What is the name of the first electricity detective?<br>`
			`A: Sherlock Ohms </i></font><br>`
			`<br>`
			` <img src="celticbar.gif" height="22" width="576"> <br>`
			` `
			`<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>`
			`  </p>`
			`<p><img src="header-index.gif" height="51" width="92"> </p>`
			`</center>`
			`<p><br>`
			`</p>`
			`</body>`
			`</html>`