212 lines
8.8 KiB
HTML
212 lines
8.8 KiB
HTML
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<!DOCTYPE html PUBLIC "-//w3c//dtd html 4.0 transitional//en">
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<html>
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<head>
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<meta http-equiv="Content-Type" content="text/html;
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charset=windows-1252">
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<meta name="GENERATOR" content="Mozilla/4.7 [en] (X11; U; OSF1 V4.0
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alpha) [Netscape]">
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<meta name="Author" content="C. L. Davis">
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<title>Electricity - Kirchoff's Laws - Physics 299</title>
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<meta content="C. L. Davis" name="author">
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</head>
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<body style="color: rgb(0, 0, 0); background-color: rgb(255, 255,
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255);" link="#0000ee" alink="#ff0000" vlink="#551a8b">
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<center>
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<h1> <img src="ULPhys1.gif" height="50" align="texttop"
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width="189"></h1>
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</center>
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<center>
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<h1>Kirchhoff's Laws<br>
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</h1>
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</center>
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<center><img src="celticbar.gif" height="22" width="576"><br>
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<br>
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<font color="#ff0000"><i>
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<meta http-equiv="content-type" content="text/html;
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charset=windows-1252">
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</i></font><font color="#ff0000"><i>
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<meta http-equiv="content-type" content="text/html;
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charset=windows-1252">
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</i></font>
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<div class="copy-paste-block"><font color="#ff0000"><i><span
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class="bqQuoteLink">"An expert is a man who has made all
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the mistakes which can be made, in a narrow field.</span></i><span></span>
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</font>"<br>
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</div>
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<font color="#ff0000"><i> </i><font color="#000000">Niels Bohr</font></font><br>
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</center>
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<img src="netbar.gif" height="40" align="middle" width="100%"> <br>
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<ul>
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<li>
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<div align="left">The most common general method to analyze
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electrical circuits is by use of Kirchhoff's Laws.<img
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alt="kirchoff" src="kirchhoff.jpg" height="133"
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align="middle" width="84"></div>
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</li>
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</ul>
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<blockquote>
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<h3><u><img alt="staricon" src="StarIconGreen.png" height="48"
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align="middle" width="50"> Junction Theorem</u></h3>
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</blockquote>
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<blockquote>
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<div align="center"><b><big><font color="#3333ff"><i>At any
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junction in a circuit the current entering the junction
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must equal the current leaving the junction.</i><i><br>
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</i></font></big></b></div>
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<br>
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<div align="center">(This is nothing more than a statement of
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conservation of charge)<br>
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</div>
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</blockquote>
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<blockquote>
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<h3><u><img alt="staricon" src="StarIconGreen.png" height="52"
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align="middle" width="53"> Loop Theorem</u></h3>
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<p align="center"><font color="#3333ff"><b><big><i>The sum of the
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changes in potential when traversing any complete</i><i>
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loop is zero.</i></big></b></font><br>
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</p>
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<p align="center">(This is equivalent to conservation of energy)<br>
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</p>
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</blockquote>
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<ul>
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</ul>
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<div align="center"><img alt="divider" src="divider_ornbarblu.gif"
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height="64" width="393"></div>
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<ul>
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<li>
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<h3><u>Conventions</u></h3>
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</li>
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</ul>
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<blockquote>As usual, in order to ensure consistent results from
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application of these laws, we must adhere to several conventions
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concerning the currents and potentials in circuits.<br>
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<u><b><br>
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Potentials</b></u>:<br>
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<ol>
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<li>When a resistive device is traversed in the direction of
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current flow the change in potential is -iR. Conversely,
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if the resistance is traversed opposite to the direction of
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the current the potential change is +iR.</li>
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<li>When an emf is traversed in the direction of the emf the
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change in potential is +ε. Conversely, if the emf is
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traversed opposite to the emf direction the change in
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potential is -ε.</li>
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</ol>
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<p><br>
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<u><b>Currents:</b></u><br>
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</p>
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<blockquote>
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<p>In setting up a problem, the current direction in any
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particular circuit element is assigned arbitrarily.
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Kitchoff's laws are then applied to the circuit using these
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current directions. After solving the resulting
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equations if a current is negative that means the "actual"
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current direction is opposite the arbitrarily chosen
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direction.<br>
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</p>
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</blockquote>
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<ol>
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</ol>
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<div align="center"><img alt="divider" src="divider_ornbarblu.gif"
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height="64" width="393"><br>
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</div>
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</blockquote>
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<ul>
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<li>
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<h3><u>Application of Kirchhoff's Laws</u></h3>
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</li>
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</ul>
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<blockquote>
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<p>Kirchhoff's laws can be applied to <b>any circuit</b> to
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obtain a set of equations relating the currents, resistances and
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emfs in the circuit. These equations can then be solved
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for the unknown quantities in the circuit. For any circuit
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follow the steps below.<br>
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</p>
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</blockquote>
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<blockquote>
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<ol>
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<li>Label the current flowing in each part of the circuit,
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bearing in mind that current will "split" on reaching a
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junction. The direction of the defined direction of the
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current does not matter - see current convention above.</li>
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<li>At each junction in the circuit use the junction theorem to
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write down the equations relating the currents entering and
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leaving. </li>
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<li>Define all possible loops in the circuit and label.</li>
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<li>For each loop choose a starting location then use the loop
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theorem to write down the equation relating changes in
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potential which must be zero after traversing the complete
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loop.</li>
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<li>Solve the set of equations from 2. and 4. to obtain the
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unknown parameters of the circuit.</li>
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</ol>
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<p><br>
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As an example, consider the circuit below. With the 3 emfs
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we cannot use the series/parallel analysis.<br>
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</p>
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<div align="center"><img alt="fig1" src="elec_kirch_fig1.gif"
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height="185" width="435"></div>
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</blockquote>
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<blockquote><u>Junctions:</u><br>
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<blockquote>a: I<sub>1</sub> = I<sub>2</sub> + I<sub>3</sub>
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<br>
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b: I<sub>3</sub> + I<sub>2</sub> = I<sub>3</sub> <br>
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<br>
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</blockquote>
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<u>Loops:</u><br>
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<blockquote>1 (including ε<sub>1</sub> starting at a traversing
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clockwise): - I<sub>3</sub>R<sub>4</sub> - ε<sub>3</sub> -
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I<sub>1</sub>R<sub>2</sub> + ε<sub>1</sub> - I<sub>1</sub>R<sub>1</sub>
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= 0<br>
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2 (including ε<sub>2</sub> starting at a traversing clockwise):
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- I<sub>2</sub>R<sub>3</sub> - ε<sub>2</sub> + ε<sub>3</sub>
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+ I<sub>3</sub>R<sub>4</sub> = 0<br>
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3 (including ε1 and ε<sub>2</sub> starting at a traversing
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clockwise): - I<sub>2</sub>R<sub>3</sub> - ε<sub>2</sub> -
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I<sub>1</sub>R<sub>2</sub> + ε<sub>1</sub> - I<sub>1</sub>R<sub>1</sub>
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= 0<br>
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</blockquote>
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Looking at these equations it is clear that the two junction
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equations are equivalent, and that loop equation 3 is simply the
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sum of loop equations 1 and 2. Therefore there are only 3
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independent equations (a, 1 and 2), which we can solve for, say,
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the currents I<sub>1</sub>, I<sub>2</sub> and I<sub>3</sub>.<br>
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<br>
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<img alt="exlamation" src="exclamation-icon.gif" height="30"
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width="31"> Note that in more complicated circuits there will be
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many more junctions and a large number of possible loops.
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You only need apply the loop theorem to as many loops to obtain
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the number of independent equations necessary to determine the
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unknown parameters. That is if you have 3 unknown
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quantities, you'll need a total of 3 independent equations.<br>
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</blockquote>
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<ul>
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</ul>
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<div align="left"> </div>
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<img src="netbar.gif" height="40" width="100%">
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<center>
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<p style="color: rgb(255, 0, 0); font-style: italic;"
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class="MsoNormal">
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<meta http-equiv="content-type" content="text/html;
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charset=windows-1252">
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</p>
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<font color="#ff0000"><i>What do you get if you have Avogadro's
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number of donkeys?<br>
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Answer: molasses (a mole of asses)</i></font><br>
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<br>
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<img src="celticbar.gif" height="22" width="576"> <br>
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<p><i>Dr. C. L. Davis</i> <br>
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<i>Physics Department</i> <br>
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<i>University of Louisville</i> <br>
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<i>email</i>: <a href="mailto:c.l.davis@louisville.edu">c.l.davis@louisville.edu</a>
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<br>
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</p>
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<p><img src="header-index.gif" height="51" width="92"> </p>
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</center>
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<p><br>
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</p>
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</body>
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</html>
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