davisnotes/elec_strmatt.html

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    <title>Electricity - Structure of Matter - Physics 299</title>
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      <h1><img src="ULPhys1.gif" height="50" align="texttop" width="189"></h1>
    </center>
    <center>
      <h1>Structure of Matter</h1>
    </center>
    <center><img src="celticbar.gif" height="22" width="576"> <br>
      <br>
      <font color="#ff0000"><i>"If I have seen further it is by standing
          on the shoulders of giants"</i></font><br>
      Isaac Newton<br>
    </center>
    <img src="netbar.gif" height="40" align="middle" width="100%"> <br>
    <ul>
      <li><img src="ap_cartoon1.gif" alt="cartoon" height="98"
          align="right" width="143"> It is well known today that all
        matter is comprised of atoms. &nbsp;The concept of <a
          href="http://www.visionlearning.com/library/module_viewer.php?mid=49">
          atoms</a> was postulated by the <a
          href="http://www.mlahanas.de/Greeks/Greeks.htm"> ancient
          Greeks</a> , but their existence was not confirmed until a
        little more than 100 years ago. &nbsp;All atoms consist of a
        nucleus made of <b> protons</b> and <b>neutrons</b> around
        which <i> "orbits"</i><img src="atomspin2.gif" alt="atom
          spinning" height="48" align="top" width="48"> one or more <b>electrons</b>.
        &nbsp;</li>
      <br clear="all">
      <br>
      <li>The basic properties of protons, neutrons, electrons and the
        atom as a whole are described in the following table.<br>
        <br>
        <table bgcolor="#ffffcc" border="1" cellpadding="2"
          cellspacing="2" width="100%">
          <tbody>
            <tr>
              <td bgcolor="#ffff00" valign="top">
                <div align="center"><b>Particle</b><br>
                </div>
              </td>
              <td bgcolor="#ffff00" valign="top">
                <div align="center"><b>Electric charge</b><br>
                </div>
              </td>
              <td bgcolor="#ffff00" valign="top">
                <div align="center"><b>Mass</b><br>
                </div>
              </td>
              <td bgcolor="#ffff00" valign="top">
                <div align="center"><b>Approximate Size</b><br>
                </div>
              </td>
            </tr>
            <tr>
              <td valign="top">
                <div align="center">electron (e<sup>-</sup>)<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">- 1.6 x 10<sup>-19</sup> C<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">9.1 x 10<sup>-31</sup> kg<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">&nbsp;&lt; 10<sup>-18</sup> m<br>
                </div>
              </td>
            </tr>
            <tr>
              <td valign="top">
                <div align="center">proton &nbsp;(p)<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">+&nbsp;1.6 x 10<sup>-19</sup> C<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">1.6 x 10<sup>-27</sup> kg<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">10<sup>-15</sup> m<br>
                </div>
              </td>
            </tr>
            <tr>
              <td valign="top">
                <div align="center">neutron &nbsp;(n)<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">0 <br>
                </div>
              </td>
              <td valign="top">
                <div align="center">1.6 x 10<sup>-27</sup> kg<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">10<sup>-15</sup> m<br>
                </div>
              </td>
            </tr>
            <tr>
              <td valign="top">
                <div align="center">Atom<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">0 (neutral)<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">(N<sub>p</sub> + N<sub>n</sub>) x
                  1.6 x 10<sup> -27</sup> kg<br>
                </div>
              </td>
              <td valign="top">
                <div align="center">10<sup>-10</sup> m<br>
                </div>
              </td>
            </tr>
          </tbody>
        </table>
        <br>
        where N<sub>p</sub>, N<sub>n</sub> are the number of protons and
        neutrons, respectively, in the nucleus of the atom.</li>
    </ul>
    <ul>
      <br>
      <img src="ap_scale.jpg" alt="atomic structure" height="340"
        align="right" width="250">
      <li>Other important properties:<br>
        <ul>
          <br>
          <li>Mass of proton (m<sub>p</sub>) &nbsp;is approximately 2000
            times the mass of the electron (m<sub>e</sub>)</li>
          <br>
          <li>More than 99% of the volume of an atom is empty space.
            &nbsp;If the nucleus of the Hydrogen atom was one inch in
            diameter the orbit of the electron would have a radius of
            &nbsp;<EFBFBD> mile.</li>
          <br>
          <li>Current experiments indicate that the electron has no
            structure, it is a true <i>point</i> particle.</li>
          <br>
          <li>Protons and neutrons are each comprised of <a
              href="http://www.fact-index.com/q/qu/quark.html"> quarks.</a>
            &nbsp;With the same experimental limit as the electrons,
            quarks also have no sub-structure.</li>
          <br>
          <li>The wavelength of visible light is of order 5 x 10<sup>-7</sup>
            m. &nbsp;Atoms are typically more than 1000 times smaller
            than this wavelength. <br>
          </li>
        </ul>
      </li>
      <br clear="all">
      <li> The properties of the different elements in nature, e.g.
        Hydrogen, Sodium, Uranium etc. are defined by their <i>"atomic
          structure"</i>. &nbsp;These elements can be arranged in a form
        known as the <i><a href="http://www.webelements.com/">
            "periodic table"</a> </i> which illustrates the
        similarities and differences between them. &nbsp; <a
          href="http://en.wikipedia.org/wiki/Dmitri_Mendeleev">Dmitri
          Mendeleev</a> <img src="mendeleev.gif" alt="mendeleev"
          height="124" align="middle" width="90"> is generally
        considered the creator of the modern <a
          href="http://periodic.lanl.gov/index.html"> periodic table</a>.<br>
        Nottingham University has created the <a
          href="http://www.periodicvideos.com/#">Periodic Table of
          Videos</a>, which features a short video clip describing the
        properties, history, production etc of each element.</li>
    </ul>
    <ul>
      <li>Starting with the <a href="http://periodic.lanl.gov/1.shtml">
          Hydrogen</a> atom, which consists of a single proton nucleus
        and a single electron, different elements can be created by
        adding additional protons to the nucleus while at the same time
        adding the same number of electrons to keep the atom neutral.
        &nbsp;For light elements (excluding Hydrogen) the number of
        neutrons in the nucleus is equal to the number of protons; for
        heavier elements a neutron excess develops. &nbsp;For example
        the most common <a href="http://periodic.lanl.gov/82.shtml">
          Lead</a> atom comprises 82 protons and 126 neutrons. &nbsp;The
        heaviest naturally occuring element is <a
          href="http://periodic.lanl.gov/92.shtml"> Uranium</a> , having
        92 protons and 146 neutrons. &nbsp;Certain elements with more
        protons can be created but undergo radioactive decay with a
        lifetime shorter than that of the earth.<br>
        <div align="center"><img src="ap_atomexam.gif" alt="atomic
            examples" height="149" align="middle" width="372"></div>
      </li>
    </ul>
    <br>
    <ul>
    </ul>
    <ul>
      <li><big><big style="font-weight: bold; color: rgb(255, 0, 0);"><font
              color="#000000">For this course, the it is important to
              realize that the negatively charged electrons are held in
              "orbit" around the positively charged nucleus by the
              electric force of attraction.&nbsp; In fact all atomic and
              molecular forces of any significance are electrical (or
              electromagnetic) in nature.&nbsp; It could be said that
              all of Chemistry is due to the electromagnetic
              force.&nbsp; In fact virtually all everyday physical
              phenomena are electromagnetic in nature, friction,
              thermodynamics, elasticity etc etc.&nbsp; Only those
              phenomena involving very large masses (where the
              gravitational force becomes significant) and certain very
              small scale processes (e.g. radioactive decay, fission,
              fusion) are not primarily electromagnetic in nature.</font>&nbsp;
            Understanding electricity and magnetism - electromagnetism
            -&nbsp; is critical to our understanding of nature.</big></big><span
          style="color: rgb(255, 0, 0);">&nbsp;</span> <br>
      </li>
    </ul>
    <img src="netbar.gif" height="40" width="100%">
    <center><span style="font-style: italic; color: rgb(255, 0, 0);">A
        neutron walks into a bar. "I'd like a beer" he says. The
        bartender promptly serves up a beer. "How much will that be?"
        asks the neutron. "For you?" replies the bartender, "no charge"<br>
        <br>
      </span><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>
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