Re: [Vo]:dark matter update--Mills' hydrinoes are a good bet

[mixent]

In reply to  Axil Axil's message of Tue, 14 Nov 2017 14:54:31 -0500:
Hi,
[snip]
>Dark matter is 6 times more dense throughout the cosmos than bright matter,
>This means that in a newly forming star, dark matter would form most of the
>mass of the star and the dark matter would participate in the nuclear
>reactions via fusion. Would not the hydrino ionize under the pressure of
>gravity  in the core of the star and become bright matter again?

Maybe, although they are much "tougher" than ordinary Hydrogen, and don't ionize
nearly as easily, which would have consequences for the size of the star at the
point of ignition. Hydrinos should enhance tunneling probability, so it's also
possible that this is responsible for ignition rather than pressure. I haven't
run the numbers, so I'm guessing here.

 
Regards,

Robin van Spaandonk

http://rvanspaa.freehostia.com/project.html

[Vo]:Time travel with Google books

[Jed Rothwell]

I have this book on my shelf:

Editor T. White, "Our Wonderful Progress, The World's Triumphant Knowledge
and Works," (1902). 768 pages.

It turns out the complete text is now available at Google books:

https://books.google.com/books?id=ixgBoRvrwmoC=frontcover=gbs_ge_summary_r=0#v=onepage=false

Have a look. You will see how the public viewed technology and progress in
1902. I think this was a popular book, because printed copies are widely
available today from used bookstores for around $50. You will see the
extent to which ordinary people understood technology and basic science.

This was an optimistic era, as described by Walter Lord:

The spirit of an era can’t be blocked out and measured, but it is there
nonetheless. And in these brief, buoyant years it was a spark that somehow
gave extra promise to life. By the light of this spark, men and women saw
themselves as heroes shaping the world, rather than victims struggling
through it.

(Quoted by me: http://lenr-canr.org/acrobat/RothwellJcomparison.pdf)

This world fell apart in 1914. As British Foreign Sec. Edward Grey said
then: "The lamps are going out all over Europe: we shall not see them lit
again in our life-time." He was right. We have never recovered, and perhaps
we never will. I doubt that mankind will ever be so blithely optimistic
again, or so willing to trust in science, technology and progress. Perhaps
that is a good thing.

- Jed

[Vo]:Magnetism, spin, and the LENR reaction

[Axil Axil]

It seems to me that spin is important in LENR because spin somehow
correlates with mass. The key to the LENR reaction is the production of
additional mass of the quarks that comprise hadrons. This change in quark
mass is induced by unbalanced magnetic field lines. This type of
anisometric field lines produces an increase in the spin rate of the quark
which will add energy to the quark. Balanced magnetic field lines do not
increase the spin of the quark. When the quantum of additional spin energy
is reached, the quark will convert that spin energy into additional mass.
When mass is added to a quark, the flavor of the quark changes and the
quark will jump to the next higher flavor. For protons and neutrons in an
anisotropic magnetic field, the up or down quark will transform into a
strange quark, the flavor that is the next up in energy/mass size. This
change in quark flavor will convert a proton to other subatomic particles
that end up as kaons.


Actually, things get more complicated. The lambda is a baryon
 which
is made up of three quarks: an up, a down and a strange quark. Based on the
amount of magnetic energy that is pumped into the proton or the neutron,
however, a variety of different Lamba particles can be produced. The third
converted quark might be strange, charm, beauty, bottom, or top. This
Lambda particle will decay in short order to produce a zoo of different
decay particle types including the kaon.


And then thing get even more complicated when subatomic molecules form.


http://physicsworld.com/cws/article/news/2015/apr/07/mysterious-baryon-resonance-is-a-subatomic-molecule-say-physicists

Re: [Vo]:dark matter update--Mills' hydrinoes are a good bet

[Axil Axil]

Dark matter is 6 times more dense throughout the cosmos than bright matter,
This means that in a newly forming star, dark matter would form most of the
mass of the star and the dark matter would participate in the nuclear
reactions via fusion. Would not the hydrino ionize under the pressure of
gravity  in the core of the star and become bright matter again?

On Tue, Nov 14, 2017 at 2:35 PM,  wrote:

> In reply to  Axil Axil's message of Mon, 13 Nov 2017 19:33:36 -0500:
> Hi,
> [snip]
> >Hydrinos will interact with bright matter magnetically and therefore is
> not
> >dark matter which does not interact with matter in any way save
> >gravitationally.
> [snip]
> 1. The notion that dark matter only reacts gravitationally may not be
> true. Note
> that this criterion was only invented to explain why it wasn't visible in
> space.
> 2. Hydrino molecules are chemically neutral, so in that sense, they don't
> interact with ordinary matter.
> 3. If Mills is correct about them floating to the top of the atmosphere, it
> would explain why few are found here on Earth. They only have half the
> mass of a
> Helium atom, and Helium is pretty scarce in the air.
> Regards,
>
> Robin van Spaandonk
>
> http://rvanspaa.freehostia.com/project.html
>
>

Re: [Vo]:dark matter update--Mills' hydrinoes are a good bet

[mixent]

In reply to  Axil Axil's message of Mon, 13 Nov 2017 19:33:36 -0500:
Hi,
[snip]
>Hydrinos will interact with bright matter magnetically and therefore is not
>dark matter which does not interact with matter in any way save
>gravitationally.
[snip]
1. The notion that dark matter only reacts gravitationally may not be true. Note
that this criterion was only invented to explain why it wasn't visible in space.
2. Hydrino molecules are chemically neutral, so in that sense, they don't
interact with ordinary matter.
3. If Mills is correct about them floating to the top of the atmosphere, it
would explain why few are found here on Earth. They only have half the mass of a
Helium atom, and Helium is pretty scarce in the air.
Regards,

Robin van Spaandonk

http://rvanspaa.freehostia.com/project.html

Re: [Vo]:Low dose radiation therapy

[H LV]

A short promotional video about low dose radiation research at CNL.

https://www.youtube.com/watch?v=uMzL38ww4BU

Harry

On Tue, Nov 14, 2017 at 12:06 PM, H LV  wrote:

> < improvement of muscle fiber formation, and that the loss of this capacity –
> which is routinely observed in a long term culture – is partially reversed
> through this treatment. Overall, the data indicates that low dose radiation
> enhances muscle stem cell memory. Although specific mechanisms of this
> enhancement are unknown, these results open up opportunities for improving
> the properties of muscle stem cells destined for therapeutic
> transplantation. >>
>
> http://www.cnl.ca/site/media/Parent/Voyageur_12_9.pdf
>

[Vo]:Low dose radiation therapy

[H LV]

<>

http://www.cnl.ca/site/media/Parent/Voyageur_12_9.pdf

Re: [Vo]:dark matter update--Mills' hydrinoes are a good bet

[Brian Ahern]

He has done it again!  60 pages with 84 references is enough to wear out even 
enthusiastic audiences.


His data is indisputable, because it takes too much effort to enter into a 
dialog.


Dialog???  He does not allow for dialogue; only ephemeral 'demos'.



From: bobcook39...@hotmail.com 
Sent: Monday, November 13, 2017 6:45 PM
To: vortex-l@eskimo.com
Subject: RE: [Vo]:dark matter update--Mills' hydrinoes are a good bet


The spectra of hydrinoes match that spectra of cosmic radiation coming from the 
Milky Way and elsewhere per Mills.  See the following:



http://brilliantlightpower.com/wp-content/uploads/papers/EUV-Mechanism-051817.pdf



In addition  kIM’s presentation identifying the prediction of WIPMZILLAS at 
10e-24 eV would not be found by CERN.

http://susy10.uni-bonn.de/data/KimJEpreSUSY.pdf



Bob Cook




From: Axil Axil 
Sent: Sunday, November 12, 2017 11:58:57 PM
To: vortex-l
Subject: Re: [Vo]:dark matter update

https://www.nature.com/news/dark-matter-hunt-fails-to-find-the-elusive-particles-1.22970

Dark-matter hunt fails to find the elusive particles

Physicists begin to embrace alternative explanations for the missing material.


http://frankwilczek.com/2017/axion_searches_01.pdf

Frank Wilczek surveys searches for his favorite dark matter alternative


On Sat, Nov 11, 2017 at 4:23 PM, Axil Axil 
> wrote:
iF wimps existed, the LHC would have created them my now...sadly no wimps.

On Sat, Nov 11, 2017 at 1:34 PM, 
bobcook39...@hotmail.com 
> wrote:

For in update on dark matter ideas and experiments see:



http://vixra.org/pdf/1706.0528v1.pdf



In the Milky  Way it may be that the cosmic EM radiation is the annihilation of 
the particles making up dark matter at the center.  Wimps and anti wimps are 
suggested given the energy of the cosmic rays..



Bob Cook