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    John;<br>

    just got back from a trip <br>

    <br>

    Thank you for the reference and the up load to your further

    thoughts.<br>

    <br>

    An experiment that distinguishes between particle and wave

    diffraction would certainly be important on its own whether or not

    it supports a STOE theory or not.<br>

    <br>

    I do not know  if anyone can get the water tank

    experiment done?<br>

    <br>

    Would your Experiment show  the electron to be a particle? Can it be

    carried out?<br>

    <br>

     Do not understand this "However, I

    don’t know about the EM radiation. How does the nature of charge

    depend on whether EM

    is particle or wave."<br>

    <br>

    <br>

    <span class="a"

      style="left:1014px;top:4085px;word-spacing:1px;letter-spacing:1px"><span

        class="l6"><span class="l6"><span class="l6"><span class="l7"><span

                class="l6">"The wav<span class="l7">e in</span></span></span></span></span></span></span><span

      class="a"

      style="left:1014px;top:4175px;word-spacing:7px;letter-spacing:1px">the

      plenu<span class="l6">m then reﬂects oﬀ the mask except where the

        slit is. <span class="w" style="width:20px"></span>The wav<span

          class="l8">e then</span></span></span><span class="a"

      style="left:1014px;top:4266px;word-spacing:2px;letter-spacing:1px">directs

      the particle. The impinging particles then cause the screen

      image." <br>

      Why do you need to assume a particle, Photon, in the wave? Why

      would the the photon concept not simply be explained by resonant

      antenna effects at the absorber? This would allow an atom to

      absorb radiation from a larger area and then the photon concept

      would simply be an explanatory projection into the EM field <br>

      Bth ERic Reiters papers and mine from the San diego conference

      suggest photons are mental projections introduced by detector

      effects. <br>

      <br>

      I have to apologize since I do not have to fully understand your

      experiment, however the claim that your experiment can distinguish

      between particle and wave diffraction is in my opinion very

      important. Is there any way you could send me a short rational for

      this claim (perhaps an excerpt)  <br>

      <br>

      best<br>

      wolf<br>

    </span>

    <pre class="moz-signature" cols="72">Dr. Wolfgang Baer

Research Director

Nascent Systems Inc.

tel/fax 831-659-3120/0432

E-mail <a class="moz-txt-link-abbreviated" href="mailto:wolf@NascentInc.com">wolf@NascentInc.com</a></pre>

    <div class="moz-cite-prefix">On 4/22/2016 6:55 AM, Hodge John wrote:<br>

    </div>

    <blockquote

      cite="mid:7535274.237806.1461333316035.JavaMail.yahoo@mail.yahoo.com"

      type="cite">

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        <div id="yui_3_16_0_ym19_1_1461333295372_2611">Wolf:</div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2612">I was working on

          this when your e-mail arrived.</div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2613"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2614"><a

            moz-do-not-send="true"

            id="yui_3_16_0_ym19_1_1461333295372_2615"

href="https://www.academia.edu/24659165/Hodge_Experiment_distinguishes_between_wave_and_particle_caused_diffraction_patterns"><a class="moz-txt-link-freetext" href="https://www.academia.edu/24659165/Hodge_Experiment_distinguishes_between_wave_and_particle_caused_diffraction_patterns">https://www.academia.edu/24659165/Hodge_Experiment_distinguishes_between_wave_and_particle_caused_diffraction_patterns</a></a></div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2616"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2617"><span

            id="yui_3_16_0_ym19_1_1461333295372_2618"

            style="mso-fareast-font-family:"MS Mincho"">ABSTRACT</span></div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2619"><span

            id="yui_3_16_0_ym19_1_1461333295372_2620"

            style="mso-fareast-font-family:"MS Mincho"">The

            Hodge

            Experiment was designed to support the Scalar Theory of

            Everything (STOE)

            particle model of the photon. It also rejected the wave

            models of light. The

            general model of light waves within the Hodge Experiment's

            conditions is shown

            to lead to unobserved effects. It also provides an insight

            into inertia. The

            STOE model of particles and the wave model of a continuous

            medium yield

            indistinguishable results for the screen image in the

            traditional diffraction

            experiment. Therefore, the Hodge Experiment provides a

            method to distinguish

            between a direct wave caused diffraction pattern and a

            particle caused

            diffraction pattern that resolves the wave--particle duality

            conundrum.</span></div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2621"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2622">I’d accept a

          water wave experiment when the setup shows a

          Fraunhofer diffraction pattern at the 2<sup

            id="yui_3_16_0_ym19_1_1461333295372_2623">nd</sup> mask (the

          1<sup id="yui_3_16_0_ym19_1_1461333295372_2624">st</sup>

          slit should be several wavelengths wide). Can anyone get the

          water tank

          experiment done?</div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2625"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2626">I think the

          electron would show to be a particle. However, I

          don’t know about the EM radiation. The nature of charge

          depends on whether EM

          is particle or wave. </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2627"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2628">Hodge</div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2629"> </div>

        <div id="yui_3_16_0_ym19_1_1461333295372_2630"> </div>

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      <pre wrap="">_______________________________________________

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