davisnotes/mag_biotsavart.html

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    <title>Magnetism - Biot-Savart Law - Physics 299</title>
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          width="189"></h1>
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      <h1>The Law of Biot-Savart<br>
      </h1>
    </center>
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      <div class="copy-paste-block"><font color="#ff0000"><i><span
              class="bqQuoteLink">"A</span></i></font><font
          color="#ff0000"><i><span class="bqQuoteLink"> fact is a simple
              statement that everyone believes.&nbsp; It is innocent,
              unless found guilty.&nbsp; A hypothesis is a novel
              suggestion that no one wants to believe.&nbsp; It is
              guilty, until found effective</span></i><span></span>"</font><br>
      </div>
      <font color="#ff0000"><i> </i><font color="#000000">Edward Teller</font></font><br>
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    <blockquote> </blockquote>
    <div align="center">
      <div align="left">
        <div align="center">
          <div align="left">
            <div align="center">
              <div align="left">
                <div align="center">
                  <div align="left">
                    <div align="center">
                      <div align="left">
                        <ul>
                          <li>We have seen that a magnetic field exerts
                            a force on a moving charge or current, just
                            as an electric field exerts a force on a
                            charge.</li>
                        </ul>
                        <div align="center"><img
                            alt="magforcechargeeqn1"
                            src="mag_force_charge_eqn1.jpg"
                            align="middle" height="33" width="135">
                          &nbsp; &nbsp; &nbsp; &nbsp;&nbsp; and &nbsp;
                          &nbsp; &nbsp; &nbsp;<img
                            alt="magforcecurrenteqn3"
                            src="mag_force_current_eqn3.jpg"
                            align="middle" height="31" width="126"><br>
                          <br>
                          <img alt="magbiotsavarteqn1"
                            src="mag_biotsavart_eqn1.jpg" height="31"
                            width="81"><br>
                          <div align="left">
                            <ul>
                              <li>In the electric case Coulomb's Law
                                gives us a method of determining <b>E</b>
                                from an arbitrary distribution of
                                charges.&nbsp; For a point charge we
                                have<br>
                              </li>
                            </ul>
                            <div align="center"><img
                                alt="magbiotsavarteqn3"
                                src="mag_biotsavart_eqn2.jpg"
                                height="61" width="180"><br>
                              <blockquote>
                                <div align="left">where <img
                                    alt="magbiotsavarteqn3"
                                    src="mag_biotsavart_eqn3.jpg"
                                    height="27" width="19">is a unit
                                  vector from the point charge to
                                  location at which the <b>E</b> field
                                  is to be determined.<br>
                                  <br>
                                </div>
                              </blockquote>
                              <div align="left">
                                <ul>
                                  <li><img alt="magbiotsavartfig1"
                                      src="mag_biotsavart_fig1.jpg"
                                      align="right" height="354"
                                      width="341">The Biot-Savart Law
                                    provides a general method of
                                    determining the <b>B</b> field from
                                    an arbitrary current distribution.</li>
                                </ul>
                                <div align="center"><img
                                    alt="magbiotsavarteqn4"
                                    src="mag_biotsavart_eqn4.jpg"
                                    height="57" width="144"><br>
                                  <br>
                                  <blockquote>
                                    <div align="left">where &#956;<sub>0</sub>
                                      is the permeability of the vacuum
                                      (free space) = 4&#960; x 10<sup>-7</sup>
                                      T.m/A, dl is a "<i>current element</i>"
                                      directed along the current in the
                                      wire and <img
                                        alt="magbiotsavarteqn3"
                                        src="mag_biotsavart_eqn3.jpg"
                                        height="27" width="19">is a unit
                                      vector from <b>dl</b> to where
                                      the <b>B</b> field is to be
                                      calculated as in the diagram at
                                      right.<br>
                                    </div>
                                  </blockquote>
                                  <div align="left">
                                    <ul>
                                      <li>There are a number of
                                        important points to be aware of:</li>
                                    </ul>
                                    <blockquote><img alt="exclamation"
                                        src="exclamation-icon.gif"
                                        height="30" width="31"> The law
                                      must be written in differential
                                      form since there is no such thing
                                      as a "point current".&nbsp; Note
                                      that a moving point charge is
                                      equivalent to a current and a
                                      stationary point charge does not
                                      create a magnetic field. <br>
                                      <br>
                                      <img alt="exclamation"
                                        src="exclamation-icon.gif"
                                        height="30" width="31">&nbsp;
                                      Due to the cross product <b>dB</b>
                                      is at right angles to both <b>dl</b>
                                      and <img alt="magbiotsavarteqn3"
                                        src="mag_biotsavart_eqn3.jpg"
                                        height="27" width="19">.&nbsp;
                                      You can't avoid considering 3
                                      dimensions.<br>
                                      <br>
                                      <img alt="exclamation"
                                        src="exclamation-icon.gif"
                                        height="30" width="31">&nbsp; <img
                                        alt="magbiotsavartfig2"
                                        src="mag_biotsavart_fig2.jpg"
                                        align="right" height="274"
                                        width="294">The "sense" of <b>dB</b>
                                      (into or out of the plane in the
                                      above diagram) is determined by
                                      the basic definition of a vector
                                      cross product or equivalently
                                      another "<i>right-hand-rule</i>"
                                      shown at right.<br>
                                      <br>
                                      <img alt="exclamation"
                                        src="exclamation-icon.gif"
                                        height="30" width="31">&nbsp; (&#956;<sub>0</sub>/4&#960;)


                                      plays a similar role to the
                                      Coulomb constant, k (= 1/4&#960;&#949;<sub>0</sub>).&nbsp;

                                      But compare the values of &#956;<sub>0</sub>
                                      and k; this is an indication of
                                      the relative strengths of the
                                      electric and magnetic interactions
                                      of charges.<br>
                                      <br>
                                      <img alt="exclamation"
                                        src="exclamation-icon.gif"
                                        height="30" width="31">&nbsp;
                                      Similar to our initial statement
                                      of Coulomb's Law, the above
                                      expression of the Biot-Savart Law
                                      gives <b>dB</b> due to a current
                                      element in a vacuum.&nbsp; For
                                      real world applications wheres the
                                      current is not in a vacuum a
                                      slight adjustment must be made to
                                      take into account the magnetic
                                      properties of the medium.&nbsp;
                                      This can be done in a similar
                                      manner to the adjustment of
                                      Coulomb's Law in a <a
                                        href="elec_dielectrics.html">dielectric


                                        medium</a>, but is beyond the
                                      scope of this course.<br>
                                      <br>
                                    </blockquote>
                                    <ul>
                                      <li>Needless to say determining
                                        the magnetic field is typically
                                        significantly more complicated
                                        than the electric field. <img
                                          alt="sadface"
                                          src="sadface.jpg"
                                          align="middle" height="52"
                                          width="52"><br>
                                      </li>
                                    </ul>
                                  </div>
                                  <blockquote>
                                    <div align="left"> </div>
                                  </blockquote>
                                </div>
                              </div>
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      <font color="#ff0000"><i>Energizer bunny arrested.&nbsp; Charged
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      <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>
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init commit 2016-05-20 00:56:25 -04:00			`<!DOCTYPE html PUBLIC "-//w3c//dtd html 4.0 transitional//en">`
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			`charset=windows-1252">`
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			`<meta name="Author" content="C. L. Davis">`
			`<title>Magnetism - Biot-Savart Law - 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>The Law of Biot-Savart<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">"A</span></i></font><font`
			`color="#ff0000"><i><span class="bqQuoteLink"> fact is a simple`
			`statement that everyone believes.  It is innocent,`
			`unless found guilty.  A hypothesis is a novel`
			`suggestion that no one wants to believe.  It is`
			`guilty, until found effective</span></i><span></span>"</font><br>`
			`</div>`
			`<font color="#ff0000"><i> </i><font color="#000000">Edward Teller</font></font><br>`
			`</center>`
			`<img src="netbar.gif" align="middle" height="40" width="100%">`
			`<blockquote> </blockquote>`
			`<div align="center">`
			`<div align="left">`
			`<div align="center">`
			`<div align="left">`
			`<div align="center">`
			`<div align="left">`
			`<div align="center">`
			`<div align="left">`
			`<div align="center">`
			`<div align="left">`
			`<ul>`
			`<li>We have seen that a magnetic field exerts`
			`a force on a moving charge or current, just`
			`as an electric field exerts a force on a`
			`charge.</li>`
			`</ul>`
			`<div align="center"><img`
			`alt="magforcechargeeqn1"`
			`src="mag_force_charge_eqn1.jpg"`
			`align="middle" height="33" width="135">`
			`         and  `
			`     <img`
			`alt="magforcecurrenteqn3"`
			`src="mag_force_current_eqn3.jpg"`
			`align="middle" height="31" width="126"><br>`
			`<br>`
			`<img alt="magbiotsavarteqn1"`
			`src="mag_biotsavart_eqn1.jpg" height="31"`
			`width="81"><br>`
			`<div align="left">`
			`<ul>`
			`<li>In the electric case Coulomb's Law`
			`gives us a method of determining <b>E</b>`
			`from an arbitrary distribution of`
			`charges.  For a point charge we`
			`have<br>`
			`</li>`
			`</ul>`
			`<div align="center"><img`
			`alt="magbiotsavarteqn3"`
			`src="mag_biotsavart_eqn2.jpg"`
			`height="61" width="180"><br>`
			`<blockquote>`
			`<div align="left">where <img`
			`alt="magbiotsavarteqn3"`
			`src="mag_biotsavart_eqn3.jpg"`
			`height="27" width="19">is a unit`
			`vector from the point charge to`
			`location at which the <b>E</b> field`
			`is to be determined.<br>`
			`<br>`
			`</div>`
			`</blockquote>`
			`<div align="left">`
			`<ul>`
			`<li><img alt="magbiotsavartfig1"`
			`src="mag_biotsavart_fig1.jpg"`
			`align="right" height="354"`
			`width="341">The Biot-Savart Law`
			`provides a general method of`
			`determining the <b>B</b> field from`
			`an arbitrary current distribution.</li>`
			`</ul>`
			`<div align="center"><img`
			`alt="magbiotsavarteqn4"`
			`src="mag_biotsavart_eqn4.jpg"`
			`height="57" width="144"><br>`
			`<br>`
			`<blockquote>`
			`<div align="left">where μ<sub>0</sub>`
			`is the permeability of the vacuum`
			`(free space) = 4π x 10<sup>-7</sup>`
			`T.m/A, dl is a "<i>current element</i>"`
			`directed along the current in the`
			`wire and <img`
			`alt="magbiotsavarteqn3"`
			`src="mag_biotsavart_eqn3.jpg"`
			`height="27" width="19">is a unit`
			`vector from <b>dl</b> to where`
			`the <b>B</b> field is to be`
			`calculated as in the diagram at`
			`right.<br>`
			`</div>`
			`</blockquote>`
			`<div align="left">`
			`<ul>`
			`<li>There are a number of`
			`important points to be aware of:</li>`
			`</ul>`
			`<blockquote><img alt="exclamation"`
			`src="exclamation-icon.gif"`
			`height="30" width="31"> The law`
			`must be written in differential`
			`form since there is no such thing`
			`as a "point current".  Note`
			`that a moving point charge is`
			`equivalent to a current and a`
			`stationary point charge does not`
			`create a magnetic field. <br>`
			`<br>`
			`<img alt="exclamation"`
			`src="exclamation-icon.gif"`
			`height="30" width="31"> `
			`Due to the cross product <b>dB</b>`
			`is at right angles to both <b>dl</b>`
			`and <img alt="magbiotsavarteqn3"`
			`src="mag_biotsavart_eqn3.jpg"`
			`height="27" width="19">. `
			`You can't avoid considering 3`
			`dimensions.<br>`
			`<br>`
			`<img alt="exclamation"`
			`src="exclamation-icon.gif"`
			`height="30" width="31">  <img`
			`alt="magbiotsavartfig2"`
			`src="mag_biotsavart_fig2.jpg"`
			`align="right" height="274"`
			`width="294">The "sense" of <b>dB</b>`
			`(into or out of the plane in the`
			`above diagram) is determined by`
			`the basic definition of a vector`
			`cross product or equivalently`
			`another "<i>right-hand-rule</i>"`
			`shown at right.<br>`
			`<br>`
			`<img alt="exclamation"`
			`src="exclamation-icon.gif"`
			`height="30" width="31">  (μ<sub>0</sub>/4π)`


			`plays a similar role to the`
			`Coulomb constant, k (= 1/4πε<sub>0</sub>). `

			`But compare the values of μ<sub>0</sub>`
			`and k; this is an indication of`
			`the relative strengths of the`
			`electric and magnetic interactions`
			`of charges.<br>`
			`<br>`
			`<img alt="exclamation"`
			`src="exclamation-icon.gif"`
			`height="30" width="31"> `
			`Similar to our initial statement`
			`of Coulomb's Law, the above`
			`expression of the Biot-Savart Law`
			`gives <b>dB</b> due to a current`
			`element in a vacuum.  For`
			`real world applications wheres the`
			`current is not in a vacuum a`
			`slight adjustment must be made to`
			`take into account the magnetic`
			`properties of the medium. `
			`This can be done in a similar`
			`manner to the adjustment of`
			`Coulomb's Law in a <a`
			`href="elec_dielectrics.html">dielectric`


			`medium</a>, but is beyond the`
			`scope of this course.<br>`
			`<br>`
			`</blockquote>`
			`<ul>`
			`<li>Needless to say determining`
			`the magnetic field is typically`
			`significantly more complicated`
			`than the electric field. <img`
			`alt="sadface"`
			`src="sadface.jpg"`
			`align="middle" height="52"`
			`width="52"><br>`
			`</li>`
			`</ul>`
			`</div>`
			`<blockquote>`
			`<div align="left"> </div>`
			`</blockquote>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`<img src="netbar.gif" height="40" width="100%"></div>`
			`<div align="center"> </div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`</div>`
			`<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>Energizer bunny arrested.  Charged`
			`with battery.  </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>`
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