Prev: half operator problem -- wondering if this is a discussed topic
Next: Need help with proof of Cantor's Theorem using Dedekind cuts
From: Archimedes Plutonium on 10 Jun 2010 00:39

II. Cosmic characteristics and features; support
Chapter (3) uniform blackbody 2.71 K cosmic microwave background
radiation and Dark Night sky: Olber's Paradox fully answered

I no longer remember in which edition that I had the Blackbody Cosmic
Microwave Background Radiation as the top supporting piece of evidence
but then thought otherwise. In the case of Wegener with Continental
Drift theory,
he had to wait for the top evidence of the seafloor spreading. I
believe the top evidence
for the Atom Totality theory, right here and now, is the blackbody
microwave radiation.
It is impossible for the Big Bang theory to explain that one single
outstanding piece of
factual data.

What I am trying to do with DeBroglie is show how the electrons of the
231Pu Atom
Totality form a cavity, a electron cavity or box and where the Coulomb
Interactions
of the Atom Totality creates this 2.71 K microwave blackbody
radiation.

   The book LA THERMODYNAMIQUE DE LA PARTICULE ISOLEE
(OU THERMODYNAMIQUE CACHEE DES PARTICULES)
(btw, I like that title with the word "cachee"
and obviously this book is written in French and it is
one of the
greatest books ever written. It is truly amazing of
the dazzling genius
of Debroglie to have anticipated so much in advance)
written by
Debroglie, 1964, considers the relativistic
fluctuations of mass of
subatomic particles such as the protons, electrons.
And then associates
temperature with a relativistic statistical mechanic.


 I am following Debroglie's intuition, except
replacing relativistic
mass fluctuations with statistical quantum
fluctuations of the Coulomb
interactions for a plutonium atom in order to derive
an intrinsic
associated temperature for an electron cavity, which
is simply the
space occupied by an electron of 231 plutonium atom.
   Let me use 95!/2 or either 232!/2 as the "Coulombic
states" and with
this large number of statistical interactions, I
propose to find an
intrinsic temperature for the 94th electron of an
isolated plutonium
atom.
  From pages 94-101, Debroglie  works with the formula
1/T = dS/dL
where T is temperature, dS is the derivative of
entropy with respect to
the lagrangian L which is kinetic energy of a system
minus the
potential energy of that system.  Debroglie derives
the formula m_0cc =
kT_0 , then where M_0 is proportional to the factor
e^(S/k)  as M_0 =
m_0  thus the entropy is proportional to the Boltzmann
factor
e^(-M_0/m_0), thence 1/T = e^(-M_0/m_0)/ d L.  Now
taking the idea of a
neutron of a neptunium atom radioactively growing to
transform into a
plutonium atom in which the term d L is very close to
1 by the factor
(neutron/neutron) -  ((proton + electron)/neutron).
So 1/T =
e^(-188/186) K/1 which is 1/T = 1/e^(188/186) K.   So
the thermodynamic
of the isolated plutonium atom or the blackbody
temperature of a
plutonium atom is  e^188/186 K which is the value of
2.74 degrees
Kelvin.   The presently determined value by the COBE
satellite for the
cosmic background microwave temperature of the
observable universe is
2.735 + 0.06 K. I assert that it is not coincidence
that the value for
the cosmic background microwave radiation temperature
of 2.7 is close
to the value of the number "e" in maths.


Archimedes Plutonium
http://www.iw.net/~a_plutonium/
whole entire Universe is just one big atom
where dots of the electron-dot-cloud are galaxies
From: Mike Dworetsky on 10 Jun 2010 03:30
Archimedes Plutonium wrote:
> II. Cosmic characteristics and features; support
> Chapter (3) uniform blackbody 2.71 K cosmic microwave background
> radiation and Dark Night sky: Olber's Paradox fully answered
>
> I no longer remember in which edition that I had the Blackbody Cosmic
> Microwave Background Radiation as the top supporting piece of evidence
> but then thought otherwise. In the case of Wegener with Continental
> Drift theory,
> he had to wait for the top evidence of the seafloor spreading. I
> believe the top evidence
> for the Atom Totality theory, right here and now, is the blackbody
> microwave radiation.
> It is impossible for the Big Bang theory to explain that one single
> outstanding piece of
> factual data.
>
> What I am trying to do with DeBroglie is show how the electrons of the
> 231Pu Atom
> Totality form a cavity, a electron cavity or box and where the Coulomb
> Interactions
> of the Atom Totality creates this 2.71 K microwave blackbody
> radiation.
>
> The book LA THERMODYNAMIQUE DE LA PARTICULE ISOLEE
> (OU THERMODYNAMIQUE CACHEE DES PARTICULES)
> (btw, I like that title with the word "cachee"
> and obviously this book is written in French and it is
> one of the
> greatest books ever written. It is truly amazing of
> the dazzling genius
> of Debroglie to have anticipated so much in advance)
> written by
> Debroglie, 1964, considers the relativistic
> fluctuations of mass of
> subatomic particles such as the protons, electrons.
> And then associates
> temperature with a relativistic statistical mechanic.
>
>
> I am following Debroglie's intuition, except
> replacing relativistic
> mass fluctuations with statistical quantum
> fluctuations of the Coulomb
> interactions for a plutonium atom in order to derive
> an intrinsic
> associated temperature for an electron cavity, which
> is simply the
> space occupied by an electron of 231 plutonium atom.
> Let me use 95!/2 or either 232!/2 as the "Coulombic
> states" and with
> this large number of statistical interactions, I
> propose to find an
> intrinsic temperature for the 94th electron of an
> isolated plutonium
> atom.
> From pages 94-101, Debroglie works with the formula
> 1/T = dS/dL
> where T is temperature, dS is the derivative of
> entropy with respect to
> the lagrangian L which is kinetic energy of a system
> minus the
> potential energy of that system. Debroglie derives
> the formula m_0cc =
> kT_0 , then where M_0 is proportional to the factor
> e^(S/k) as M_0 =
> m_0 thus the entropy is proportional to the Boltzmann
> factor
> e^(-M_0/m_0), thence 1/T = e^(-M_0/m_0)/ d L. Now
> taking the idea of a
> neutron of a neptunium atom radioactively growing to
> transform into a
> plutonium atom in which the term d L is very close to
> 1 by the factor
> (neutron/neutron) - ((proton + electron)/neutron).
> So 1/T =
> e^(-188/186) K/1 which is 1/T = 1/e^(188/186) K. So
> the thermodynamic
> of the isolated plutonium atom or the blackbody
> temperature of a
> plutonium atom is e^188/186 K which is the value of
> 2.74 degrees
> Kelvin. The presently determined value by the COBE
> satellite for the
> cosmic background microwave temperature of the
> observable universe is
> 2.735 + 0.06 K. I assert that it is not coincidence
> that the value for
> the cosmic background microwave radiation temperature
> of 2.7 is close
> to the value of the number "e" in maths.

Reality check: would this numerology have given the same answer 5-6 billion
years ago when the CMB was closer to 5 K? Or was e different back then?
What about 10 billion years ago when it was even hotter?

--
Mike Dworetsky

(Remove pants sp*mbl*ck to reply)

 | 
Pages: 1
Prev: half operator problem -- wondering if this is a discussed topic
Next: Need help with proof of Cantor's Theorem using Dedekind cuts