<html><head></head><body><div style="color:#000; background-color:#fff; font-family:Helvetica Neue, Helvetica, Arial, Lucida Grande, sans-serif;font-size:13px"><div id="yui_3_16_0_ym19_1_1516613569397_5114">EXPERIMENT has falsified MET</div><div id="yui_3_16_0_ym19_1_1516613569397_5115"> http://intellectualarchive.com/?link=item&id=1603 </div><div id="yui_3_16_0_ym19_1_1516613569397_5116"><br id="yui_3_16_0_ym19_1_1516613569397_5117"></div><div></div><div id="yui_3_16_0_ym19_1_1516613569397_5118">Hodge</div><div dir="ltr" id="yui_3_16_0_ym19_1_1516613569397_5119"><br id="yui_3_16_0_ym19_1_1516613569397_5120"></div> <div class="qtdSeparateBR"><br><br></div><div class="yahoo_quoted" style="display: block;"> <div style="font-family: Helvetica Neue, Helvetica, Arial, Lucida Grande, sans-serif; font-size: 13px;"> <div style="font-family: HelveticaNeue, Helvetica Neue, Helvetica, Arial, Lucida Grande, sans-serif; font-size: 16px;"> <div dir="ltr"><font size="2" face="Arial"> On Sunday, January 21, 2018 3:23 PM, Wolfgang Baer <wolf@nascentinc.com> wrote:<br></font></div> <br><br> <div class="y_msg_container"><div id="yiv7301250841">
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<div>Chandra:</div>
<div>This paper acknowledged you. It is a detailed application of
alternative QM from Lande among others THat I've always been
intrigued with.</div>
<div>Lande's idea was that al forms of the uncertainty principle h/t=
nE , h/x=np define the probability of momentum and/or energy
exchange based on the symmetry in the "t", "x" configuration of an
electromagnetic particle. One Fourier transforms the particle, in
this case the slit, and the probability of the energy exchange is
proportional to the transform amplitudes of two particles
individual waves</div>
<div>What's most intriguing about this is that if we conceive of a
background space in which EM particles are contained , and that
containment is defined by Fourier plane waves that permeate the
whole space then momentum exchanges can happen between particles
at great distances, of course gravity and velocity would limit the
matching of the waves to usually ;local pairs.</div>
<div>Wolf <br>
</div>
<div class="yiv7301250841moz-forward-container">
<div class="yiv7301250841WordSection1">
<pre>Dr. Wolfgang Baer
Research Director
Nascent Systems Inc.
tel/fax 831-659-3120/0432
E-mail <a rel="nofollow" ymailto="mailto:wolf@NascentInc.com" target="_blank" href="mailto:wolf@NascentInc.com">wolf@NascentInc.com</a></pre>
<div>
<div class="yiv7301250841MsoNormal">On 1/16/2018 2:05 PM, Mike Mobley wrote:</div>
</div>
<blockquote style="margin-top:5.0pt;margin-bottom:5.0pt;">
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">Dear friends
and colleagues,
</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">I want to
engage you in the campaign to shift a scientific paradigm.
</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">Einstein once
commented, “The significant problems we face cannot be
solved at the same level of thinking we were at when we
created them.” This speaks to the opportunity of a path
less traveled.</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">The wave
nature of light has been a dominant paradigm for over two
hundred years. In my recent publication in the journal,
<i>Optical Engineering</i>: “Momentum Exchange Theory of
Photon Diffraction,” I describe an alternative particle
model for light that accounts for our observations of
optical diffraction. Even those without a background in
physics can appreciate the impact of this move away from
traditional theories premised on a wave nature for light.
This is a simple idea that will change our physics
textbooks.</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">I’ve included
the abstract below. The complete paper can be accessed and
downloaded for free at the journal website:
<span style="font-size:12.0pt;line-height:115%;">
<a rel="nofollow" target="_blank" href="https://urldefense.proofpoint.com/v2/url?u=http-3A__dx.doi.org_10.1117_1.OE.57.1.015105&d=DwMFAA&c=h8tWSEopLyY-jufMqa6tqNiQLH-Hu55HVFAFe4cURDM&r=4sW4BtvqSfYNZdSetS0xqjha7gyaEmtiuIz_4TuIsK4&m=i_UDflK0UOQv0MXY6ox81wT6fV9CaQ-o7pHYaCwxkD8&s=ytNFJivmO6S1gyz21K48SMxFbA8Wy08y95XPvTsYIy0&e="><span style="color:blue;">http://dx.doi.org/10.1117/1.OE.57.1.015105</span></a></span></div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">Please be
encouraged to examine the paper, to ponder these ideas, and
to share them with friends and colleagues.
</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">Grace and
peace,</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;">Mike</div>
<div class="yiv7301250841MsoNormal" style="margin-bottom:10.0pt;line-height:115%;"><b><span style="font-size:12.0pt;line-height:115%;">Momentum
Exchange Theory of Photon Diffraction</span></b></div>
<div class="yiv7301250841MsoNormal"><b>Abstract</b>. “Momentum Exchange
Theory”(MET) provides an alternative picture for optical
diffraction based on a distribution of photon paths through
momentum transfer probabilities determined at the scattering
aperture. This is contrasted with classical optical wave
theory that uses the Huygens-Fresnel principle and sums the
phased contributions of wavelets at the point of detection.
Single slit, multiple slit (Talbot effect) and straight edge
diffraction provide significant clues to the geometric
parameters controlling momentum transfer probabilities and
the relation to Fresnel zone numbers. Momentum transfer is
primarily dependent on preferred momentum states at the
aperture and the specific location and distance for momentum
exchange. Diffraction by an opaque disc provides insight to
negative (attractive) dispersions. MET should simplify the
analysis of a broadened set of aperture configurations and
experimental conditions.</div>
<div class="yiv7301250841MsoNormal"> </div>
<div class="yiv7301250841MsoNormal"> </div>
<div class="yiv7301250841MsoNormal"><b><i>Michael J. Mobley, Ph.D.</i></b></div>
<div class="yiv7301250841MsoNormal"><b><i>Executive Director</i></b></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;">Center for
Integrated Science, Engineering and Technology</span></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;">Grand Canyon
University</span></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;">3300 W.
Camelback Rd. Phoenix, AZ 85017</span></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;">Cell: 480
720 1860</span></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;">Email: <a rel="nofollow" ymailto="mailto:mike.mobley@gcu.edu" target="_blank" href="mailto:mike.mobley@gcu.edu">
<span style="color:blue;">mike.mobley@gcu.edu</span></a></span></div>
<div class="yiv7301250841MsoNormal"><span style="color:#5F2987;"> </span></div>
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