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Subj: [svpvril] SED Zero Point Field frequency, other properties, and Casimir Measures
Date: 8/19/01 12:23:21 PM Pacific Daylight Time
From: conextom@aol.com
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To: svpvril@yahoogroups.com, DEACH@topica.com, vortex-l@eskimo.com
CC: tom@rhfweb.com
SED Zero Point Field frequency, other properties, and Casimir
Measures
According to the article Physics of the Zero-Point Field,
Implications for Inertia, Gravitation, and Mass by Bernhard
Haish, Lockheed Martin and others, posted at the
http://motionsciences.org web site under publications,
Statistical Electrodynamics (SED), postulates a second
radiation field Zero Point Field which Classical Electrodynamics
does not recognize.
I have summarized and paraphrased the information and facts
from the above article and other articles on ZPF and Occult
Ether physics to come up with the exact frequencies,
wavelengths, energies, and measures for ZPF fields below:
Classical Electrodynamics: (1 radiation field)
Normal electromagnetic fields originating from stars and
the Big Bang.
SED - Statistical Electrodynamics radiation fields)
Normal electromagnetic fields originating from
stars and the Big Bang.
Uniform isotropic background electromagnetic
zero point field.
The ZPF field has the following properties:
ZPF is light waves, a Lorentz invariant, a universal frame of rest
for acceleration but not for rectilinear motion.
ZPF is absolute space with respect to acceleration but not rest
or motion, to explain inertial accelerations
The ZPF spectrum is a Lorentz invariant, and has no drag force
as does the ordinary radiation field due to the Doppler
shift which increases the drag strength of the radiation
field in the direction of motion and decreases it
in the opposite direction.. Electrons are not significantly
accelerated by ZPF-induced zitterbewegung, where as
protons and nuclei are accelerated.
ZPF cannot be seen visibly, since ZPF is isotropic and
homogenous in its spacial distributions.
Dipole transitions in ZPF absorb and re-emit isotropic
v^3 radiation without change in spatial or spectral
distribution.
ZPF can not be directly observed, only deviations above ZPF
are measurable.
The ZPF can be measured as follows:
ZPF can be measured by correlation to interference effects,
inteferometry. In atoms and molecules the absorption and
reemission of the ZPF radiation results in the generation of
secondary short-range fields, that result in short range
forces or van der Waals forces. The attractive quantum force,
the Casimir force between dielectric or conducting plates can be
calculated and measured due to the absorption and emission of
ZPF radiation by the plates results in interference and
cancellation of certain electromagnetic modes between the
plates. ZPF radiation can be inferred from the consequences of
Casimir force inteferometry.
Frequencies, Wave lengths, and Energies of ZPF
Equations used for calculations:
The SED version of the Plank and Bohr updated correct form
for the average energy of the zero-point electromagnetic
fluctuations to 1/2 hv instead of the hv value
assumed by Einstein/stern results in the equation,
p(v,T)dv = 8pie v^2/c^3 (hv/e^hv/kT-1 + hv/2)dv
Pzp(v) = Integral [0 to v sub c] 4 pie hv^3/c^3 dv.
where v sub c is a presumed higher frequency cutoff, or Planks
frequency v sub p = (c^5, Gh)^1/2 = 1.9 x 10^43 Hz.
Also a harmonic oscillator must have a minimum energy of
hw/2, where h is Planck constant divided by 2 pie,, and w is the
oscillation frequency in units of radians per second. This is also
the zero point energy of a harmonic oscillator.(Other
References 1 below )
The frequencies, and other properties of ZPF may be calculated
from the above equations as shown below:
10^9 Hz frequency, 10^10 cm wavelength, 10^5 eV
Classical Radiation Field
The Cosmic Microwave Background Radiation
(CMBR) = 53 GHz-frequency middle band of the
COBE Differential Microwave Radiometer
CMBR=53,000,000,000Hz
Zero Point Radiation Field
The ZPF has a ratio of pzpf/pcmbr=0.77. So that ZPF
radiation = 40,810,000,000Hz = 53,000,000,000Hz x
0.77.
pzp = 2 pie^2c^7/G^2h in the order of 10^116 ergs
cm^-3 x^-1..
ZPF cut off point:
Planks frequency which the highest possible
frequency in nature:
v = (c^5/Gh)^1/2 ~ 1.9x 10^43Hz.
ZPF resonant frequency:
Compton frequency: v= m sub e c^2/h =1.236
x 10^20 Hz.
Visible Light 10^15 Hz frequency, 10^-5 cm wavelength, 10^1
eV.
Zitterbewegung 10^24 Hz frequency, ~10^-10 cm wavelength,
10^-15eV
Frequency of electron = 6.25x10^24
Planks frequency v = (c^5/Gh)^1/2 ~ 1.9x 10^43Hz, ~10^-35
cm wavelength , 10^-30ev.
Atomic Inteferometers may measure down to 10^-41m in
wavelength.
According to Occult Ether Physics by
William Lyne 1997, J.A. Wheeler, Geometrodynamics,
Academic Press, N.Y. 1962, "measured the energy density of
ZPR at 10^94 gram/cm^3, for individual fluctuations of random
ZPR, on the scale of the Plank length (10^-33 cm.), by means of
a standard radiation detector, the frequency response of which
was specially altered to extend into the super high frequency
spectrum involved. " Pg 19
According to Burkhard Heim, Protosimplex, Geometrical
understandings of elementary particles posted at
http://people.blinx.de/behemoth/protosimplex/posdzech/px_g_t
eilchen_e.htm, .the smallest possible geometrical
unit of empty space is the metron which is 6.15 * 10^-70 m^2.
Other References:
1. Toward An Interstelar Mission: Zeroing in on the Zero-Point
Field Inertia Resonance, by Bernhard Haisch and Alfonso
Rueda, posted at the http://motionsciences.org web site.
Respectfully,
Thomas Clark
www.rhfweb.com\personal
tom@rhfweb.com
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Date: Sun, 19 Aug 2001 15:22:15 EDT
Reply-To: svpvril@yahoogroups.com
Subject: [svpvril] SED Zero Point Field frequency, other properties, and Casimir Measures
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