davisnotes/mag_force_current.html

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    <title>Magnetism - Force on Currents - Physics 299</title>
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      <h1>Magnetic Forces on Electric Currents <br>
      </h1>
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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>
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      <font color="#ff0000"><i> </i><font color="#000000">Edward Teller</font></font><br>
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    <blockquote> </blockquote>
    <ul>
      <li> An electric current is simply a collection of charges moving
        along a wire with velocity <b>v<sub>d</sub> </b>, known as the
        drift velocity.&nbsp; We have already seen that the drift
        velocity and current density are related by</li>
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    <div align="center"><img alt="eleccurrent eqn2"
        src="elec_current_eqn2.jpg" height="54" width="126"><br>
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      <blockquote>
        <div align="left">Considering the magnetic force on a single
          charge (e) we find<br>
          <div align="center"><img alt="magforcecurrent"
              src="mag_force_current_eqn1.jpg" height="51" width="90"><br>
            <br>
            <div align="left">Now the total force on a wire comprised of
              (nAl) charge carriers each with charge e is given by<br>
              <br>
              <div align="center"><img alt="magforcecurrenteqn2"
                  src="mag_force_current_eqn2.jpg" height="50"
                  width="360"><br>
                <br>
                <div align="left">Defining a vector <b>l </b>along the
                  wire in the same direction as <b>J</b> and using |<b>J</b>A|


                  = i (electric current) we find for the total force on
                  the wire<br>
                  <br>
                  <div align="center"><img alt="magforcecurrenteqn3"
                      src="mag_force_current_eqn3.jpg" height="31"
                      width="126"><br>
                    <br>
                    <img alt="magforcecurrentfig1"
                      src="mag_force_current_fig1.jpg" height="283"
                      width="275">&nbsp;&nbsp; &nbsp; &nbsp; &nbsp;
                    &nbsp; &nbsp; &nbsp; &nbsp;&nbsp;
                    &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; <img
                      alt="magforcecurrentfig2"
                      src="mag_force_current_fig2.jpg" height="276"
                      width="346"><br>
                    <br>
                    <div align="left"><img alt="exclamation"
                        src="exclamation-icon.gif" height="30"
                        width="31">&nbsp; Note that for a given current
                      negative and positive charge carriers move in
                      opposite directions.&nbsp; This leads to&nbsp; a
                      force on the wire in the same direction (see
                      above), whether the charge carriers are positive
                      or negative.<br>
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      <font color="#ff0000"><i>When chemists die, they barium.<br>
          &nbsp; </i></font><br>
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      &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>
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