electrons_a.htm

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<P align=center><font face="Times New Roman" size="6">THE&nbsp; ELECTRONS</font></P>
<P align=center><font face="Times New Roman" size="4">by Gabriel LaFreniere.</font></P>
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<P align=center><font face="Times New Roman" size="4">Electrons are made out of &quot;pseudo-standing waves&quot;.</font></P>
<P align=center><font face="Times New Roman" size="4">The Doppler effect allows
this system to move through the aether.</font></P>
<P align=center>&nbsp;</P>
<p align="left"><font face="Times New Roman" size="4"><a href="electrons.htm">En
français :</a>&nbsp;&nbsp;&nbsp; <a href="electrons.htm"><img border="0" src="images/quebecois.gif" width="60" height="40"></a>&nbsp;&nbsp;&nbsp;&nbsp;
<a href="electrons.htm"><img border="0" src="images/francais.gif" width="60" height="40"></a>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
Home :&nbsp; <a href="matter.htm">Matter is made of waves.</a>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
<a href="mailto:absolu2000@hotmail.com">absolu2000@hotmail.com</a></font></p>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">These
        pages were first made in french. My knowledge of English is not too bad,
        but I prefer let somebody else translate them.</span>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">I
        thought that in the meantime you would like to examine the following
        images and animations. In my opinion they are very interesting because
        they show that Lorentz was right. The Michelson interferometer <b><i>did
        contract itself</i></b> on its displacement axis, because matter is made
        out of standing waves. As a matter of fact, standing waves obey the
        Lorentz transformation, and this leads to Relativity.</span>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">Lorentz'
        Relativity, which admits an absolute point of view.</span>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">Nevertheless
        it admits a relative point of view too, which is very close to
        Einstein's.</span></p>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">Let's
        repeat it : Lorentz was right.</span>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"><span lang="FR-CA">Unfortunately,
        nobody believed him.</span></font></center></td>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Electrons
        are made out of standing waves as shown above, and matter is purely made
        out of electrons. So let's see how electrons work.</p>
        
        <P align=left><B>One wave, two particles, four phases.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">And
        two spins for both electrons and positrons. Note that their name is <b><i>relative</i></b>.
        A magnet has a north and a south pole. A battery has a positive and a
        negative terminal. These names can be switched and the world would
        still work properly :&nbsp;
        
        </p>
        
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        <p align="center">&nbsp;</p>
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<P align=center>Four particules, absolutely identical. The only difference is
time.</P>
<P align=center>&nbsp;</P>
<P align=center><img border="0" src="images/huygens00.gif" width="547" height="281"></P>
<P align=center>Waves are adding themselves in a rather complex way.</P>
<P align=center>&nbsp;</P>
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<P align=center>This 3-D view is very interesting, albeit it is artificial.</P>
<P align=center>&nbsp;</P>
<P align=center><img border="0" src="images/amplitude00_a.gif" width="677" height="435"></P>
<P align=center>The electron amplitude values.</P>
<P align=center>&nbsp;</P>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">This
        diagram has been computed in accordance with Huygens' principle.
        An electron is an Airy disk at full aperture (360°).&nbsp; Electrons
        appear while positrons disappear. There are two &quot;spins&quot;
        because the central core can be compressed or dilated while the antinodes are visible.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">The
        next diagram shows how ingoing and outgoing waves can produce a moving
        system while they are not concentric. This is the Doppler effect :</p>
        
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        <p align="center">&nbsp;</p>
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        <p align="center"><font size="4" face="Times New Roman">A moving
        electron.</font></p>
        <p align="center"><font size="4" face="Times New Roman">&nbsp;</font></p>
        <p align="center"><img border="0" src="images/huygens01.gif"></p>
<p align="center"><font size="4" face="Times New Roman">The moving
        electron (speed : .5 c) diagram, showing its characteristic envelope still
present.</font></p>
        <p align="center">&nbsp;</p>
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        <P align=left><B>The Poincaré's synchronization value.&nbsp;</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">A
        moving electron may seem to behave as
        if it was at rest. This is because the light does not travel at the same relative
        speed in a moving frame of reference, according to the Poincaré synchronisation&nbsp;
        &quot;s&quot; value :</p>
        
        <P align=center>s = <font face="Symbol" size="4">b
        
        </font> / ( 1 <span lang="FR-CA" style="font-family: Times New Roman; mso-fareast-font-family: Times New Roman; mso-ansi-language: FR-CA; mso-fareast-language: FR; mso-bidi-language: AR-SA">–</span>
        <font face="Symbol" size="4">b</font><sup>2 </sup>)&nbsp;</P>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">The
        distance between the moving reference marks on this
        animation is the reciprocal of this&nbsp; s&nbsp; value :</p>
        
        <P align=center>L = <font size="4" face="Symbol">l</font> /
        s&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; L = <font size="4" face="Symbol">
        
        l</font>
 ( 1 <span lang="FR-CA" style="mso-fareast-font-family: Times New Roman; mso-ansi-language: FR-CA; mso-fareast-language: FR; mso-bidi-language: AR-SA">–</span>
        <font size="4" face="Symbol">b</font><sup>2 </sup>) / <font size="4" face="Symbol">b</font></P>
        
        <P align=left><B>A virtual simultaneity.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">The
        next animation shows thin white lines acting as a scanner. They report
        the pixels of a static electron into the bottom image. This indicate
        that this static electron will seem to be moving for an observer moving
        very fast. A « virtual Doppler effect » occurs. The virtual
        simultaneity works inside a moving frame of reference, but it causes the
        illusion of a time shift inside any object at rest.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">This
        is coherent with the Lorentz
        transformation :</p>
        
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<p align="center"><font face="Times New Roman" size="4">Left : the scanning process
can produce an image of a moving electron.
        
        </font> 
        
</p>
<p align="center"><font face="Times New Roman" size="4">Right : inversely it can
produce an image of a static electron.
        
        </font> 
        
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        <P align=left><B>A new law of Relativity.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">So
        Relativity is true, but it only describes appearances. It is a law of
        nature. It is not a theory any more.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">This
        is the law of Relativity of appearances :</p>
        
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                <p align="center"><font size="4" face="Times New Roman">From its
                point of view, any material body seems at rest and other
                entities only act, react and seem affected by the Lorentz
                transformation according to their apparent speed.</font></p>
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        <p align="center">&nbsp;</p>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">This
        is the law of Constancy of physical phenomenae. It looks like
        Einstein's, but it was first worded by Henri Poincaré :&nbsp;&nbsp;</p>
        
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        <p align="center"><font face="Times New Roman" size="4">The laws of
        physical phenomenae are the same for an observer at rest and for an
        observer being moved in a uniform translation movement, making it
        impossible for us to know whether or not we are actually moving in such
        a way.</font></td>
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        <p align="center">&nbsp;</font></p>
        
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        <P align=left><B>Ellipsoids and hyperboloids.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Electrons
        are emitting spherical waves, and so two electrons will produce a very
        special pattern :</p>
        
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        <p align="center">&nbsp;</p>
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        <p align="center">&nbsp;</p>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify"> These
        are not interferences, but another sort of standing waves called
        &quot;partially standing waves&quot;. The outgoing waves strength inside
        an electron is higher, so the nodes and antinodes seem to move outwards
        :</p>
        
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        <p align="center">&nbsp;</p>
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        <p align="center"><font size="4" face="Times New Roman">Waves between
        two electrons.</font></p>
        <p align="center">&nbsp;</p>
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        <P align=left><B>Unification of all forces.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">All forces such as magnetic and electric
        fields, gravity, light or nuclear forces can be explained by waves.&nbsp;These
        waves can &quot;push&quot; matter by the mean of radiation
        pressure.&nbsp;</p>
        
        <P align=left><B>Enormous quantities of energy.</B></P>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Matter
        contains energy. According to Einstein : <span style="letter-spacing: 3">E=mc</span><sup>2</sup>,
        which proves to be true.&nbsp;&nbsp;</p>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">But
        electrons do not only contain energy. They radiate continuously this
        energy, and so, each second, the value of this energy coud be as much as
        : <span style="letter-spacing: 3">E=mc</span><sup>3</sup>. This can be
        estimated from the light speed and the space (perhaps around a meter)
        into which an electron might be present.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">But
        the amplification process suppose that a
        &quot;shade effect&quot; would occur. This would cancel this energy, albeit
        it might be possible to extract some of it, which would be a great (or
        terrible) invention.&nbsp;&nbsp;</p>
        
        <p align="left"><b>Electrostatic charges.</b></p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">All
        forces are resulting from a difference between radiation pressure and
        the shade effect. The next animation shows that two electrons radiate
        more energy on the axis, and so they are pushed apart by the radiation
        pressure. This animation shows that if the electrons are very close, it
        can be quite different. Sometimes their phases are opposite, so two
        electrons or more collided at high sped can stick togeter an form a
        complex particle such as a quark.&nbsp; The standing waves between two
        electrons can be identified as an electrostatic field, or as a gluonic
        field if they are very close :</p>
        
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        <p align="center">&nbsp;</p>
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<p align="center"><font size="4" face="Times New Roman">Distance : 10 </font><font size="4" face="Symbol">l</font><font size="4" face="Times New Roman">.</font></p>
<p align="center"><font size="4" face="Times New Roman">Waves add themselves
between them, but destroy themselves beyond.</font></p>
<p align="center"><font size="4" face="Times New Roman">&nbsp;</font></p>
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<p align="center"><font size="4" face="Times New Roman">Distance : 10,5 </font><font size="4" face="Symbol">l</font><font size="4" face="Times New Roman">.</font></p>
<p align="center"><font size="4" face="Times New Roman">Waves destroy themselves
between them, but add themselves beyond.</font></p>
        <p align="center">&nbsp;</p>
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        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">On
        a transverse plan those standing waves look like the diffractive lens.
        They focus their energy toward both electron. This explains the
        repulsive effect :&nbsp;&nbsp;</p>
        
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        <p align="center"><img border="0" src="images/mecanique07.gif" width="320" height="320" align="center"></p>
        <p align="center"><font size="4" face="Times New Roman">The diffractive
        lens.</font></p>
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        <p align="left"><b>A gluonic fields acts like a particle.</b></p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">The
        electron's amplification process works in the same manner into a gluonic
        field. So a gluonic field is matter as well as an electron. It produces
        a repulsion effect on the axis, but otherwise an attraction effect
        :&nbsp;</p>
        
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        <p align="center">&nbsp;</p>
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        <p align="center"><font face="Times New Roman" size="4">A gluon, or
        gluonic field.
        
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</p>
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        <p align="left"><b>&nbsp;</b></p>
        <p align="left"><b>Wave gears : pure mechanics.</b></p>
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Matter
        particles work using wave gears. Because the wavelenght of an electron
        is always the same, this explains quanta.&nbsp;&nbsp;</p>
        
        <p align="left"><b>Electrons and positrons produce an attraction effect
        and a magnetic field.</b></p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Because
        their waves can never be in phase, a gluon cannot be created between an
        electron and a positron. We suppose here that a proton contains an
        additionnal positron, and so the proton seems to attract an electron
        because his mass is around 2000 times greater.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">Moreover
        my computer program reveals that an electron and a positron produce a
        very interesting wave along the axis. The direction of this wave may be
        inverted every 1/2 wavelenght, or if the spin of one particle is
        inverted. Obviously two such systems can produce a magnet and the poles
        can be identified according to the direction of the wave. The animation
        shows that the standing waves apart from the axis behave in a very
        particular way which can explain the Lorentz force :&nbsp;&nbsp;&nbsp;</p>
        
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        <p align="center">&nbsp;

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<p align="center"><font face="Times New Roman" size="4">One-way waves on the
axis, explaining magnetic fields.</font>

</p>
        <p align="center">&nbsp;

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        <p align="center"><font size="4" face="Times New Roman">&nbsp;Off-axis
        waves, explaining the Lorentz force.</font>

</p>
        <p align="center"><font size="4" face="Times New Roman">&nbsp;</font>

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        <p align="left"><b>Electrons explain all.</b></p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">This
        was very demanding for a simple wave.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">The
        point is that this wave<i><b> does explain everything</b></i>.</p>
        
        <p class="MsoTitle" style="TEXT-INDENT: 35.4pt; TEXT-ALIGN: justify">&nbsp;</p>
        
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        </center><p class="MsoTitle" style="text-indent: 35.4pt" align="left">Gabriel
        LaFreniere,</p>
        <font face="Times New Roman" size="4">
        <p class="MsoTitle" style="text-indent: 35.4pt" align="left">Bois-des-Filion
        in Québec.</font></p>
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        <p class="MsoTitle" style="text-indent: 35.4pt" align="left"><a href="mailto:absolu2000@hotmail.com">absolu2000@hotmail.com</a></p>
        <p class="MsoTitle" style="text-indent: 35.4pt" align="left">
        Last update March 8, 2004.</p>
        <p class="MsoTitle" style="text-indent: 35.4pt" align="left">On the
        Internet since September 2002.</p>
        <p class="MsoTitle" style="text-indent: 35.4pt" align="left">
        La théorie de l'Absolu (The theory of Absolute), <span lang="FR-CA" style="mso-bidi-font-size: 12.0pt; font-family: Times New Roman; mso-fareast-font-family: Times New Roman; mso-ansi-language: FR-CA; mso-fareast-language: FR; mso-bidi-language: AR-SA">©
        </span>Luc Lafrenière, May 2000.</p>
        <p class="MsoTitle" style="text-indent: 35.4pt" align="left">
        La matière est faite d'ondes (Matter is made of waves), <span lang="FR-CA" style="mso-bidi-font-size: 12.0pt; font-family: Times New Roman; mso-fareast-font-family: Times New Roman; mso-ansi-language: FR-CA; mso-fareast-language: FR; mso-bidi-language: AR-SA">©
        </span>Gabriel Lafrenière, June 2002.</p>
        
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        <p align="left">&nbsp;</p>
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              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./michelson_a.htm">The
                Michelson interferometer.</a></u></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./magnetic.htm">Magnetic
                fields.</a></u></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./light.htm">Light.</a></u></font></td>
            </tr>
            <tr>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./lorentz_a.htm">The
                Lorentz transformation.</a></u></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./standingwaves.htm">Standing
                waves.</a></u></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./gravity.htm">Gravity.</a></u></font></td>
            </tr>
            <tr>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><a href="./relativity.htm">The
                Theory of Relativity.</a></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span></font><font color="#808080"><font face="Times New Roman" size="4">The
                electrons.
          </font>
                </font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./quarks_a.htm">The
                Quarks.</a></u></font></td>
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              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./wavetheory.htm">The
                Wave Theory.</a></u></font></td>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./mechanics.htm">Wave
                mechanics.</a></u></font></td>
              <td align="left">&nbsp;</td>
            </tr>
            <tr>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./postulates.htm">The
                Wave Theory postulates.</a></u></font></td>
              <td align="left"><font size="4" face="Times New Roman">&nbsp;<a href="./genesis.htm">Genesis.</a></font></td>
              <td align="left">&nbsp;</td>
            </tr>
            <tr>
              <td align="left"><font face="Times New Roman" size="4"><span lang="FR-CA">&nbsp;</span><u><a href="./phaseshift.htm">The
                Electron phase shift.</a></u></font></td>
              <td align="left">&nbsp;</td>
              <td align="left">&nbsp;</td>
            </tr>
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        <p align="left">The new link for this page is :&nbsp; <a href="./electrons_a.htm">http://www.glafreniere.com/electrons_a.htm</a></p>
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