Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

[Axil Axil]

I have tried to understand the wiki article on Superparamagnetism...

https://en.wikipedia.org/wiki/Superparamagnetism

It seems to me that the level of Superparamagnetism can be adjusted in such
a way that a weak magnetic field can be applied to a ceramic magnet which
is highly superparamagnetic to reduce that superparamagnetism and therefore
the associated magnetic field of the magnet.

This technique is used to write and erase bits onto the surface of  a
magnetic disk with a ceramic magnetic coating. The way this is done is to
adjust the number of magnetic domains that are impressed into each and
every  nano particle that make up the structure of the ceramic magnet
surface through a specialized demagnetization process.

The way that the number of these magnetic domains are adjusted is done by
demagnetizing the magnet using a magnetic field that includes a specific
frequency. The magnetic domains within the nanoparticles become forever
sensitive to that frequency.

When this weak magnetic field is applied, the magnet becomes demagnetized
through random thermal vibration. When this alternating magnetic field  is
removed, the magnetic field of the ceramic magnet returns.

This process is just what happens in the magnetic conditioning of the
billet, and the subsequent application of the weak activation magnetic
field.

This case is summarized by this snippet from the article

>From this frequency-dependent susceptibility, the time-dependence of the
magnetization for low-fields can be derived:


{\displaystyle \tau {\frac {\mathrm {d} M}{\mathrm {d} t}}+M=\tau \chi
_{b}{\frac {\mathrm {d} H}{\mathrm {d} t}}+\chi _{sp}H}[image: \tau {\frac
{{\mathrm {d}}M}{{\mathrm {d}}t}}+M=\tau \chi _{b}{\frac {{\mathrm
{d}}H}{{\mathrm {d}}t}}+\chi _{{sp}}H]
There is no time-dependence of the magnetization when the nanoparticles are
either completely blocked ({\displaystyle T\ll T_{B}}[image: T\ll T_{B}])
or completely superparamagnetic ({\displaystyle T\gg T_{B}}[image: T\gg
T_{B}]).

The condition we want to get to is when T = TB, that is when the
nanoparticles are right on the cutting edge between magnetism and
diamagnetism, so that a tiny magnetic field can turn them off or on.
I will add more detailed explanation if it looks like to you'll that there
is something to this adjustment in the superpara-magnification of the
ceramic billet to be sensitive to weak frequency-dependent magnetic fields.
Opinions are welcome.

On Tue, Feb 21, 2017 at 12:38 PM, Brian Ahern  wrote:

> Excess energy and magnetic cooling seem to poke up every now and then. It
> is difficult for even the most dedicated technologists to connect phonons
> with magnons.
>
>
> I have had some unique experience with this interaction during my tenure
> as a Staff Sientist at USAF Rome Lab in Lexington MA.  I 1988 I was tasked
> to understand the new cuprate superconductors. By shear luck I discovered
> that MIT Professor Keith Johnson had solved the problem five years earlier.
> In fact, his 1983 paper presented in Zurich directed Bednors and Meuller to
> work on the cuprates. Bedorz was the leader of the conference in 1983.
>
>
> He found that the superconduction arises when the Born-Oppenheimer
> conditions are not met. That is, when the valence electron motion is
> coupled to vibrational modes. The electrons are in molecular orbitals and
> magnetism exists under very specific orbital topologies.
>
>
> So magnetism (Specific electron orbitals conditions) and phonons can be
> coupled under specific orbital conditions and one combination is shallow
> well ferromagnetism.  Like the superconductor coupling, specific coupling
> can lead to coherent behavior as well in  a ferromagnetic system.
>
>
> More needs tobe said but there is some new physics at work in the Manelas
> billet.
>
>
> --
> *From:* bobcook39...@gmail.com 
> *Sent:* Monday, February 20, 2017 1:56 PM
> *To:* Chris Zell; vortex-l@eskimo.com
> *Subject:* RE: [Vo]:Regarding what BOB COOK THINKS ABOUT THE NAE
>
>
> Chris-
>
>
>
> I have understood that phonons are “virtual” particles that represent a
> localized energy in a crystal lattice made up of kinetic energy and
> potential energy in a resonant stable dynamic state.  It is primarily
> thought to be an electric field that couples the nuclei and electrons in
> the lattice—primarily the valence electrons.  The nuclei oscillate around
> some mid position in the lattice and valence  electrons change their
> orbital spin states reflecting the motion of the nuclei.
>
>
>
> Temperature of the crystal lattice is a measure of the amplitude of the
> nuclei special displacement around their mid position in the lattice.  If
> the crystal constitutes a coherent QM system, then all nuclei vibrate with
> the same amplitude and the crystal is at a single temperature.  If the
> amplitude (temperature) get to high, the crystal electronic bonds fail and
> the order of the crystalline 

RE: [Vo]:DESCRIBING THE MANELAS Phenomenon

[MarkI-ZeroPoint]

The only UCAR I'm aware if is University Corporation for Atmospheric
Research.

https://www2.ucar.edu/

-mark

 

From: Brian Ahern [mailto:ahern_br...@msn.com] 
Sent: Tuesday, February 28, 2017 3:07 PM
To: vortex-l@eskimo.com
Subject: Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

 

Who is UCAR?

 

  _  

From: bobcook39...@gmail.com 
Sent: Tuesday, February 28, 2017 3:35 PM
To: Axil Axil; vortex-l
Subject: RE: [Vo]:DESCRIBING THE MANELAS Phenomenon 

 

bRIAN---

 

You may wantg to contact UCAR, who seems to have a good knowledge of
magnetics regarding reverse engineering the Manelaes device.  Trace elements
may be an important ingredient which will be hard to detect without
destructive examination.  

 

Gadolinium is used in MRI (nuclear magnetic resonance) machines.  As AXIL
poin ted out, Gd has strong electronic responses as well as nuclear magnetic
responses.  It may be that the Gd in a Ba fe lattice is able to help
nuclear-electronic spin energy coupling in a variable B field.

 

Keep in mind that reonances are probably required for a couple.  Thus, the
allof the nuclear species spin energy states could be involved in a couple.
The electronic spin energy states also change with the instantaneous  B
field.  The spin coupling theory AXIL IDNETIVIED a few comments back may be
another key for designing a good reverse engineering scheme.

 

Bob Ciook

 

Sent from Mail   for Windows
10

 

From: Axil Axil  
Sent: Monday, February 27, 2017 8:04 PM
To: vortex-l  
Subject: Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

 

The goal is to duplicate the Manelas or Sweet magnet in order to run tests
on the replicant. Replication is marked by the creation of a liquid like
mobile magnetic bubble with a boundary that is easily movable located at the
center of the magnet. The assumption is that the preparation process is
common between these two types of magnets: barium or strontium. The
difference between these two systems is most likely in the nature of the
activation signal.  Fabricating this special magnetic configuration seems to
take a accumulation of experience so either barium or strontium magnets will
serve well for practicing proper techniques. 

 

Replication process 

 

Buy at least 1 ceramic magnet of the appropriate size and material

 

https://www.amazon.com/Applied-Magnets-Ceramic-Magnet-Block/dp/B0012DPKX6/re
f=sr_1_105?s=industrial
 =UTF8=1488242881=1-105=ferrite+magnets

 

This magnet in all probability will be strontium.

-

 

Test to determine what type of magnet was delivered. If the surface of the
magnet does not conduct electricity (continuity tester) then the magnet is
barium, if the surface does conduct electricity then the magnet is
strontium.

 

-

Prepare the magnet by pre-treating it with high voltage electrostatic
tension. 

 

Place two conductive plates(copper) on each side of the billet. This will
form a capacitor out of the billet with the magnet as the dielectric.
Apply high voltage (20,000 volts or more) of electrostatic potential to the
billet. Capacitive breakdown of the dielectric billet should occur. Increase
the voltage until capacitive breakdown does occur.

--

 

Using a capacitor bank able to store voltages up over 1000 volts and 1000
joules of energy and a coil of wire wrapped around a plastic cylinder 8
inches in diameter

 

This video shows how to build the magnetic conditioner. 

 

https://www.youtube.com/watch?v=nFarS-liuBY

 

I would add a shelf upon which the magnet can sit that is located in the
middle of the coil where the magnetic field produced by the DC pulse is
maximized.  

-

The key idea is to partially demagnetize the billet. To do this,  the
magnetic field lines from the magnet must oppose magnetic field lines
produced by the sides of the billet.

 

The demagnetization process must be done in small steps where feedback about
the behavior of the magnetic bubble can be applied to arrive at a goldilocks
level of magnetization: not too much and not too little.  The capacitor bank
should start out energized with only 100 volts worth of energy. 

 

Then the magnetic bubble should be checked out after each demagnetization
operation to determine if a liquid and highly mobile magnetic bubble has
emerged in the center of the billet's sides.

 

This validation process could be automated through a mecanized scan of the
total surface area of the magnet aginst a bebchmark. 

 

or it could entail rapid eyeballing of the magnetic field lines using
magnetic field viewing film

 

Re: [Vo]:Fukushima much worse than imagined

[Eric Walker]

On Sat, Feb 18, 2017 at 1:55 PM, Jed Rothwell  wrote:

The boars seem pretty healthy despite their contaminated tissue. I am not
> sure if that is good news or bad news.
>

Exposure to (natural) radiation used to be thought to be beneficial to
people's health.  I wonder whether the safety limits for radioactivity were
set far lower than they needed to be out of an abundance of caution.

Eric

RE: EXTERNAL: RE: [Vo]:Dark matter discovered !

[Roarty, Francis X]

A relativistic / Prof Naudts  perspective leads to a thought wrt dark matter, 
could hydrogen become so dilated/contracted that it slips away on the temporal 
axis? We know from relativity that 4 spatial axis exists but that we can only 
perceive 3 of the 4 as spatial and infer the rest from the evidence of time 
dilation. Between the near C and stationary paradox twin we can simultaneously 
observe all 4 with each twins time axis being one of the other twins spatial 
axii. Call it condensed, fractional or hydrino could it slip to the very 
surface of our 3d ant farm hidden behind the last layers of virtual particles 
bordering the time axis? My argument being that our universe is flat from a 4d 
perspective with every bit ov matter even in the center of the sun having 2 
additional side toward future and past where dark matter could be hiding.
Fran

From: bobcook39...@gmail.com [mailto:bobcook39...@gmail.com]
Sent: Tuesday, February 28, 2017 3:35 PM
To: Jones Beene ; Vortex List 
Subject: EXTERNAL: RE: [Vo]:Dark matter discovered !

Jones—

I’m glad you are relatively civil regarding our good brethren of the scientific 
 cloth.  I trust they are familiar with Dr R Mill GUTCP.

Bob Cook

Sent from Mail for Windows 10

From: Jones Beene
Sent: Monday, February 27, 2017 5:10 PM
To: Vortex List
Subject: [Vo]:Dark matter discovered !

OK. OK. Maybe the official headline was "Sample of Metallic Hydrogen
Disappears" but this is the year of "alternative facts" as declared by
the highest office in the land.

Therefore, the alternative fact for today in the science world (not fake
news) is that the metallic hydrogen sample did not disappear, if did
what all dense hydrogen does when you keep the pressure on ... it goes
denser and then finally it goes dark. That's right, it turned into dark
matter.

And the geniuses at Harvard missed it.

http://www.techtimes.com/articles/199274/20170226/worlds-only-sample-of-metallic-hydrogen-disappears-in-lab.htm

Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

[Brian Ahern]

Who is UCAR?



From: bobcook39...@gmail.com 
Sent: Tuesday, February 28, 2017 3:35 PM
To: Axil Axil; vortex-l
Subject: RE: [Vo]:DESCRIBING THE MANELAS Phenomenon


bRIAN---



You may wantg to contact UCAR, who seems to have a good knowledge of magnetics 
regarding reverse engineering the Manelaes device.  Trace elements may be an 
important ingredient which will be hard to detect without destructive 
examination.



Gadolinium is used in MRI (nuclear magnetic resonance) machines.  As AXIL poin 
ted out, Gd has strong electronic responses as well as nuclear magnetic 
responses.  It may be that the Gd in a Ba fe lattice is able to help 
nuclear-electronic spin energy coupling in a variable B field.



Keep in mind that reonances are probably required for a couple.  Thus, the 
allof the nuclear species spin energy states could be involved in a couple.  
The electronic spin energy states also change with the instantaneous  B field.  
The spin coupling theory AXIL IDNETIVIED a few comments back may be another key 
for designing a good reverse engineering scheme.



Bob Ciook



Sent from Mail for Windows 10



From: Axil Axil
Sent: Monday, February 27, 2017 8:04 PM
To: vortex-l
Subject: Re: [Vo]:DESCRIBING THE MANELAS Phenomenon



The goal is to duplicate the Manelas or Sweet magnet in order to run tests on 
the replicant. Replication is marked by the creation of a liquid like mobile 
magnetic bubble with a boundary that is easily movable located at the center of 
the magnet. The assumption is that the preparation process is common between 
these two types of magnets: barium or strontium. The difference between these 
two systems is most likely in the nature of the activation signal.  Fabricating 
this special magnetic configuration seems to take a accumulation of experience 
so either barium or strontium magnets will serve well for practicing proper 
techniques.



Replication process



Buy at least 1 ceramic magnet of the appropriate size and material



https://www.amazon.com/Applied-Magnets-Ceramic-Magnet-Block/dp/B0012DPKX6/ref=sr_1_105?s=industrial=UTF8=1488242881=1-105=ferrite+magnets



This magnet in all probability will be strontium.

-



Test to determine what type of magnet was delivered. If the surface of the 
magnet does not conduct electricity (continuity tester) then the magnet is 
barium, if the surface does conduct electricity then the magnet is strontium.



-

Prepare the magnet by pre-treating it with high voltage electrostatic tension.



Place two conductive plates(copper) on each side of the billet. This will form 
a capacitor out of the billet with the magnet as the dielectric.   Apply high 
voltage (20,000 volts or more) of electrostatic potential to the billet. 
Capacitive breakdown of the dielectric billet should occur. Increase the 
voltage until capacitive breakdown does occur.

--



Using a capacitor bank able to store voltages up over 1000 volts and 1000 
joules of energy and a coil of wire wrapped around a plastic cylinder 8 inches 
in diameter



This video shows how to build the magnetic conditioner.



https://www.youtube.com/watch?v=nFarS-liuBY



I would add a shelf upon which the magnet can sit that is located in the middle 
of the coil where the magnetic field produced by the DC pulse is maximized.

-

The key idea is to partially demagnetize the billet. To do this,  the magnetic 
field lines from the magnet must oppose magnetic field lines produced by the 
sides of the billet.



The demagnetization process must be done in small steps where feedback about 
the behavior of the magnetic bubble can be applied to arrive at a goldilocks 
level of magnetization: not too much and not too little.  The capacitor bank 
should start out energized with only 100 volts worth of energy.



Then the magnetic bubble should be checked out after each demagnetization 
operation to determine if a liquid and highly mobile magnetic bubble has 
emerged in the center of the billet's sides.



This validation process could be automated through a mecanized scan of the 
total surface area of the magnet aginst a bebchmark.



or it could entail rapid eyeballing of the magnetic field lines using magnetic 
field viewing film



https://www.amazon.com/Magnetic-Viewing-Film-Field-Display/dp/B00129CCGS/ref=sr_1_6?ie=UTF8=1488160497=8-6=magnetic+field+plastic+film



Through trial and error, a voltage step up delta increment value should be 
determined to gradually demagnetize the billet.



After establishing this test bed,  then we can move on to imposing the 
activation signel into the billet.

RE: [Vo]:DESCRIBING THE MANELAS Phenomenon

[bobcook39923]

bRIAN---

You may wantg to contact UCAR, who seems to have a good knowledge of magnetics 
regarding reverse engineering the Manelaes device.  Trace elements may be an 
important ingredient which will be hard to detect without destructive 
examination.  

Gadolinium is used in MRI (nuclear magnetic resonance) machines.  As AXIL poin 
ted out, Gd has strong electronic responses as well as nuclear magnetic 
responses.  It may be that the Gd in a Ba fe lattice is able to help 
nuclear-electronic spin energy coupling in a variable B field.

Keep in mind that reonances are probably required for a couple.  Thus, the 
allof the nuclear species spin energy states could be involved in a couple.  
The electronic spin energy states also change with the instantaneous  B field.  
The spin coupling theory AXIL IDNETIVIED a few comments back may be another key 
for designing a good reverse engineering scheme.

Bob Ciook

Sent from Mail for Windows 10

From: Axil Axil
Sent: Monday, February 27, 2017 8:04 PM
To: vortex-l
Subject: Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

The goal is to duplicate the Manelas or Sweet magnet in order to run tests on 
the replicant. Replication is marked by the creation of a liquid like mobile 
magnetic bubble with a boundary that is easily movable located at the center of 
the magnet. The assumption is that the preparation process is common between 
these two types of magnets: barium or strontium. The difference between these 
two systems is most likely in the nature of the activation signal.  Fabricating 
this special magnetic configuration seems to take a accumulation of experience 
so either barium or strontium magnets will serve well for practicing proper 
techniques. 

Replication process 

Buy at least 1 ceramic magnet of the appropriate size and material

https://www.amazon.com/Applied-Magnets-Ceramic-Magnet-Block/dp/B0012DPKX6/ref=sr_1_105?s=industrial=UTF8=1488242881=1-105=ferrite+magnets

This magnet in all probability will be strontium.
-

Test to determine what type of magnet was delivered. If the surface of the 
magnet does not conduct electricity (continuity tester) then the magnet is 
barium, if the surface does conduct electricity then the magnet is strontium.

-
Prepare the magnet by pre-treating it with high voltage electrostatic tension. 

Place two conductive plates(copper) on each side of the billet. This will form 
a capacitor out of the billet with the magnet as the dielectric.   Apply high 
voltage (20,000 volts or more) of electrostatic potential to the billet. 
Capacitive breakdown of the dielectric billet should occur. Increase the 
voltage until capacitive breakdown does occur.
--

Using a capacitor bank able to store voltages up over 1000 volts and 1000 
joules of energy and a coil of wire wrapped around a plastic cylinder 8 inches 
in diameter

This video shows how to build the magnetic conditioner. 

https://www.youtube.com/watch?v=nFarS-liuBY

I would add a shelf upon which the magnet can sit that is located in the middle 
of the coil where the magnetic field produced by the DC pulse is maximized.  
-
The key idea is to partially demagnetize the billet. To do this,  the magnetic 
field lines from the magnet must oppose magnetic field lines produced by the 
sides of the billet.

The demagnetization process must be done in small steps where feedback about 
the behavior of the magnetic bubble can be applied to arrive at a goldilocks 
level of magnetization: not too much and not too little.  The capacitor bank 
should start out energized with only 100 volts worth of energy. 

Then the magnetic bubble should be checked out after each demagnetization 
operation to determine if a liquid and highly mobile magnetic bubble has 
emerged in the center of the billet's sides.

This validation process could be automated through a mecanized scan of the 
total surface area of the magnet aginst a bebchmark. 

or it could entail rapid eyeballing of the magnetic field lines using magnetic 
field viewing film

https://www.amazon.com/Magnetic-Viewing-Film-Field-Display/dp/B00129CCGS/ref=sr_1_6?ie=UTF8=1488160497=8-6=magnetic+field+plastic+film

Through trial and error, a voltage step up delta increment value should be 
determined to gradually demagnetize the billet.

After establishing this test bed,  then we can move on to imposing the 
activation signel into the billet.

RE: [Vo]:Dark matter discovered !

[bobcook39923]

Jones—

I’m glad you are relatively civil regarding our good brethren of the scientific 
 cloth.  I trust they are familiar with Dr R Mill GUTCP.

Bob Cook

Sent from Mail for Windows 10

From: Jones Beene
Sent: Monday, February 27, 2017 5:10 PM
To: Vortex List
Subject: [Vo]:Dark matter discovered !

OK. OK. Maybe the official headline was "Sample of Metallic Hydrogen 
Disappears" but this is the year of "alternative facts" as declared by 
the highest office in the land.

Therefore, the alternative fact for today in the science world (not fake 
news) is that the metallic hydrogen sample did not disappear, if did 
what all dense hydrogen does when you keep the pressure on ... it goes 
denser and then finally it goes dark. That's right, it turned into dark 
matter.

And the geniuses at Harvard missed it.

http://www.techtimes.com/articles/199274/20170226/worlds-only-sample-of-metallic-hydrogen-disappears-in-lab.htm

[Vo]:LENR AND THE DECALOG OF OPPRESSORS

[Peter Gluck]

http://egooutpeters.blogspot.ro/2017/02/feb-28-2017-has-lenr-something-to-do.html

-peter-


Dr. Peter Gluck
Cluj, Romania
http://egooutpeters.blogspot.com

Re: [Vo]:Good summary of LENR & Rossi by Mats Lewan

[Peter Gluck]

dear Adrian
please read my EGO OUT I noticed it yesterday
best,
peter

On Tue, Feb 28, 2017 at 6:44 PM, a.ashfield  wrote:

> Originally published in World Affairs in January, this has become
> available on Lewan's blog.
> It is a good summary of the LENR situation with Rossi and the worldwide
> implications.
>
> https://animpossibleinvention.com/2017/02/25/world-affairs-c
> old-fusion-an-impossible-invention/
>
> AA
>
>


-- 
Dr. Peter Gluck
Cluj, Romania
http://egooutpeters.blogspot.com

Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

[Axil Axil]

@Brian Ahern

I have asked Adam Smith is he could make the VTA billet conditioner
described here

https://www.youtube.com/watch?v=nFarS-liuBY

I he could, would you be interested in this product?

On Tue, Feb 28, 2017 at 11:16 AM, Axil Axil  wrote:

> I found another billet source with more technical information...
>
>
> http://www.ebay.com/itm/2-Ceramic-magnets-6-x-4-x-1-
> Block-C8-Applied-Magnets/121649786632?_trksid=p2141725.
> c100338.m3726&_trkparms=aid%3D222007%26algo%3DSIC.MBE%26ao%3D1%26asc%
> 3D20150313114020%26meid%3D0d5d431deb39456c88b04ad65f54
> ce12%26pid%3D100338%26rk%3D2%26rkt%3D30%26sd%3D321080445975
>
>
> 2 Piece of 6" x 4" x 1"
>
> Ceramic Block Magnet
>
> BrMax: 3850 Gauss
>
> Approximate Pull Force: 45 lbs
>
> Magnetized through the 1" Thickness
>
> Poles are on the 6" x 4" Flat Surfaces.
>
> Ceramic magnets, also known as ferrite magnets is a type of permanent
> magnet made of iron oxide and *strontium* carbonate.
>
> We carry the grade C8 ceramic magnets, which is the strongest ceramic
> magnet.
>
> Ceramic magnets are widely used as craft magnets and refrigerator magnets.
>
>
> Grade C8, the strongest ceramic magnets available
>
>
> Buy with confidence from us:
>
>- Trusted and reliable global magnet distributor and supplier.
>- Committed to customers with lowest price, highest magnet quality.
>- Honesty and trustworthiness are our #1 priority.
>- Outstanding customer service.
>- Proven track record and excellent reputation.
>- All of our Neodymium Iron Boron magnets are manufactured in ISO
>certified factory.
>
>
> On Mon, Feb 27, 2017 at 11:04 PM, Axil Axil  wrote:
>
>> The goal is to duplicate the Manelas or Sweet magnet in order to
>> run tests on the replicant. Replication is marked by the creation of a
>> liquid like mobile magnetic bubble with a boundary that is easily
>> movable located at the center of the magnet. The assumption is that the
>> preparation process is common between these two types of magnets: barium or
>> strontium. The difference between these two systems is most likely in the
>> nature of the activation signal.  Fabricating this special magnetic
>> configuration seems to take a accumulation of experience so either barium
>> or strontium magnets will serve well for practicing proper techniques.
>>
>> Replication process
>>
>> Buy at least 1 ceramic magnet of the appropriate size and material
>>
>> https://www.amazon.com/Applied-Magnets-Ceramic-Magnet-Block/
>> dp/B0012DPKX6/ref=sr_1_105?s=industrial=UTF8=14882428
>> 81=1-105=ferrite+magnets
>>
>> This magnet in all probability will be strontium.
>> -
>>
>> Test to determine what type of magnet was delivered. If the surface of
>> the magnet does not conduct electricity (continuity tester) then the magnet
>> is barium, if the surface does conduct electricity then the magnet is
>> strontium.
>>
>> -
>> Prepare the magnet by pre-treating it with high voltage electrostatic
>> tension.
>>
>> Place two conductive plates(copper) on each side of the billet. This will
>> form a capacitor out of the billet with the magnet as the dielectric.
>> Apply high voltage (20,000 volts or more) of electrostatic potential to the
>> billet. Capacitive breakdown of the dielectric billet should occur.
>> Increase the voltage until capacitive breakdown does occur.
>> --
>>
>> Using a capacitor bank able to store voltages up over 1000 volts and 1000
>> joules of energy and a coil of wire wrapped around a plastic cylinder 8
>> inches in diameter
>>
>> This video shows how to build the magnetic conditioner.
>>
>> https://www.youtube.com/watch?v=nFarS-liuBY
>>
>>
>> I would add a shelf upon which the magnet can sit that is located in the
>> middle of the coil where the magnetic field produced by the DC pulse is
>> maximized.
>> -
>> The key idea is to partially demagnetize the billet. To do this,  the
>> magnetic field lines from the magnet must oppose magnetic field lines
>> produced by the sides of the billet.
>>
>> The demagnetization process must be done in small steps where feedback
>> about the behavior of the magnetic bubble can be applied to arrive at a
>> goldilocks level of magnetization: not too much and not too little.  The
>> capacitor bank should start out energized with only 100 volts worth of
>> energy.
>>
>> Then the magnetic bubble should be checked out after each demagnetization
>> operation to determine if a liquid and highly mobile magnetic bubble has
>> emerged in the center of the billet's sides.
>>
>> This validation process could be automated through a mecanized scan of
>> the total surface area of the magnet aginst a bebchmark.
>>
>> or it could entail rapid eyeballing of the magnetic field lines
>> using magnetic field viewing film
>>
>> 

[Vo]:Good summary of LENR & Rossi by Mats Lewan

[a.ashfield]

Originally published in World Affairs in January, this has become 
available on Lewan's blog.
It is a good summary of the LENR situation with Rossi and the worldwide 
implications.


https://animpossibleinvention.com/2017/02/25/world-affairs-cold-fusion-an-impossible-invention/

AA

Re: [Vo]:DESCRIBING THE MANELAS Phenomenon

[Axil Axil]

I found another billet source with more technical information...


http://www.ebay.com/itm/2-Ceramic-magnets-6-x-4-x-1-Block-C8-Applied-Magnets/121649786632?_trksid=p2141725.c100338.m3726&_trkparms=aid%3D222007%26algo%3DSIC.MBE%26ao%3D1%26asc%3D20150313114020%26meid%3D0d5d431deb39456c88b04ad65f54ce12%26pid%3D100338%26rk%3D2%26rkt%3D30%26sd%3D321080445975


2 Piece of 6" x 4" x 1"

Ceramic Block Magnet

BrMax: 3850 Gauss

Approximate Pull Force: 45 lbs

Magnetized through the 1" Thickness

Poles are on the 6" x 4" Flat Surfaces.

Ceramic magnets, also known as ferrite magnets is a type of permanent
magnet made of iron oxide and *strontium* carbonate.

We carry the grade C8 ceramic magnets, which is the strongest ceramic
magnet.

Ceramic magnets are widely used as craft magnets and refrigerator magnets.


Grade C8, the strongest ceramic magnets available


Buy with confidence from us:

   - Trusted and reliable global magnet distributor and supplier.
   - Committed to customers with lowest price, highest magnet quality.
   - Honesty and trustworthiness are our #1 priority.
   - Outstanding customer service.
   - Proven track record and excellent reputation.
   - All of our Neodymium Iron Boron magnets are manufactured in ISO
   certified factory.


On Mon, Feb 27, 2017 at 11:04 PM, Axil Axil  wrote:

> The goal is to duplicate the Manelas or Sweet magnet in order to
> run tests on the replicant. Replication is marked by the creation of a
> liquid like mobile magnetic bubble with a boundary that is easily
> movable located at the center of the magnet. The assumption is that the
> preparation process is common between these two types of magnets: barium or
> strontium. The difference between these two systems is most likely in the
> nature of the activation signal.  Fabricating this special magnetic
> configuration seems to take a accumulation of experience so either barium
> or strontium magnets will serve well for practicing proper techniques.
>
> Replication process
>
> Buy at least 1 ceramic magnet of the appropriate size and material
>
> https://www.amazon.com/Applied-Magnets-Ceramic-Magnet-Block/
> dp/B0012DPKX6/ref=sr_1_105?s=industrial=UTF8=
> 1488242881=1-105=ferrite+magnets
>
> This magnet in all probability will be strontium.
> -
>
> Test to determine what type of magnet was delivered. If the surface of the
> magnet does not conduct electricity (continuity tester) then the magnet is
> barium, if the surface does conduct electricity then the magnet is
> strontium.
>
> -
> Prepare the magnet by pre-treating it with high voltage electrostatic
> tension.
>
> Place two conductive plates(copper) on each side of the billet. This will
> form a capacitor out of the billet with the magnet as the dielectric.
> Apply high voltage (20,000 volts or more) of electrostatic potential to the
> billet. Capacitive breakdown of the dielectric billet should occur.
> Increase the voltage until capacitive breakdown does occur.
> --
>
> Using a capacitor bank able to store voltages up over 1000 volts and 1000
> joules of energy and a coil of wire wrapped around a plastic cylinder 8
> inches in diameter
>
> This video shows how to build the magnetic conditioner.
>
> https://www.youtube.com/watch?v=nFarS-liuBY
>
>
> I would add a shelf upon which the magnet can sit that is located in the
> middle of the coil where the magnetic field produced by the DC pulse is
> maximized.
> -
> The key idea is to partially demagnetize the billet. To do this,  the
> magnetic field lines from the magnet must oppose magnetic field lines
> produced by the sides of the billet.
>
> The demagnetization process must be done in small steps where feedback
> about the behavior of the magnetic bubble can be applied to arrive at a
> goldilocks level of magnetization: not too much and not too little.  The
> capacitor bank should start out energized with only 100 volts worth of
> energy.
>
> Then the magnetic bubble should be checked out after each demagnetization
> operation to determine if a liquid and highly mobile magnetic bubble has
> emerged in the center of the billet's sides.
>
> This validation process could be automated through a mecanized scan of the
> total surface area of the magnet aginst a bebchmark.
>
> or it could entail rapid eyeballing of the magnetic field lines
> using magnetic field viewing film
>
> https://www.amazon.com/Magnetic-Viewing-Film-Field-
> Display/dp/B00129CCGS/ref=sr_1_6?ie=UTF8=1488160497=
> 8-6=magnetic+field+plastic+film
>
> Through trial and error, a voltage step up delta increment value should be
> determined to gradually demagnetize the billet.
>
> After establishing this test bed,  then we can move on to imposing the
> activation signel into the billet.
>
>
>
>
>
>
>>>
>>
>