Brian, I also find it quite interesting that the outside of the device cools down as electrical energy is extracted via coupling to its magnetic activity. The very good news that I detect is that thermal energy actually appears to be absorbed and then converted into electrical energy. This is, in a manner of speaking, similar to when a hot body cools off by emitting heat radiation, only the energy transfer in this case is via a magnetic coupling path.
I have a couple of questions. Has a complete Mandela device been placed into a heat chamber in order to see whether or not it can handle a large temperature operating extreme? If it only works over a tiny ambient range then the applications are rapidly limited. Could this be why the automobile industry is not interested at this point? Second, in the picture showing a pin levitated above the rectangle of ferrite is it safe to assume that the pin is magnetized? I suspect that your indication that the center of the Billet has a south pole suggests this state. Also, have you calculated the amount of heat energy being absorbed into the Billet during operation and found it to match the amount extracted as electrical energy? Does 5C below ambient appearing upon the surface of the Billed result in 60 watts of heat flowomg into it? I would consider this to be a key characteristic and strong evidence that the effect is real. Dave -----Original Message----- From: Brian Ahern <ahern_br...@msn.com> To: vortex-l <vortex-l@eskimo.com> Sent: Mon, Feb 13, 2017 6:28 am Subject: Re: [Vo]:Regarding what BOB COOK THINKS ABOUT THE NAE The Billet is 1" x 4" x 6" and has four North poles at the corner and a South pole in the center. The most important physics is the 5C cooling when the deice was otputting 60 watts into the 300 pound battery pack. I do not understand how this MAGNETOCLORIC event happens. From: Axil Axil <janap...@gmail.com> Sent: Sunday, February 12, 2017 8:20 PM To: vortex-l Subject: Re: [Vo]:Regarding what BOB COOK THINKS ABOUT THE NAE More... The Mandela bullot is flat and square with a large surface area. This flat topology with a large surface area might permit a maximum of magnetic dipoles to form on the surface of the Mandela bullot. I would like to know what type of gas filled the black box...is it protium or deuterium or air? On Sun, Feb 12, 2017 at 8:09 PM, Axil Axil <janap...@gmail.com> wrote: The Manelas Device functional diagram On Sun, Feb 12, 2017 at 7:58 PM, Axil Axil <janap...@gmail.com> wrote: It might be that the pulsed current of the 137 kilohertz square wave input current produces a magnetic dipole with a large instantaneous power factor because the current is produced by a square wave like the Brillouin method. The 24 volt constant current also produces heat and the strontium ferrite magnet is heat resistant. The maximum operating temperature of the magnet is 250C and the Curie temperature is 450C, With that high temperature operating capacity, coherent magnetically based Surface plasmon polaritons may form under the influence of the magnetic dipole motion that localize around the magnetic field lines as heat photons become entangled with electrons dipoles. If these magnetic polaritons become coherent, these polaritons may produce enough magnetic power to destabilize the nuclei of the gas above the surface of the magnet inside the Mandela's Device black box. On Sun, Feb 12, 2017 at 6:28 PM, Brian Ahern <ahern_br...@msn.com> wrote: The Manelas billet is strontium ferrite and is very high electrical resistivity. This eliminates eddy currents as a loss mechanism From: Axil Axil <janap...@gmail.com> Sent: Sunday, February 12, 2017 6:18 PM To: vortex-l Subject: [Vo]:Regarding what BOB COOK THINKS ABOUT THE NAE Regarding what BOB COOK THINKS ABOUT THE NAE "Note my recent comment regarding the Manelas Device reflecting your notice about the discovery of time crystals. There may be a connection with the magnetic materials used in the device. Separately, I would note that the design of NAE’s may require a structure which allows high magnetic fields (10^12 –10^16 Tesla.) Structures that are 1 or 2 dimensional may be the key, with the 1-D NAE supporting LENR+, because it causes the reaction in a confined space and maintains the 1-D characteristic for repeated reactions upon arrival of reactants—H or D or Li or whatever." There is a branch of physics called "QCD in strong magnetic fields" that has conducted workshops on what a strong magnetic fields can do to a nucleus. http://homepages.uni-regensburg.de/~eng14891/qcdB_workshop/program.shtml QCD in strong magnetic fields - uni-regensburg.de homepages.uni-regensburg.de Monday 12 November; 09:00 - 09:40: Berndt Müller: When QCD meets QED: 09:40 - 10:20: Vladimir Skokov: Magnetic field in HIC and anisotropy of photon production and also by another name "Workshop on Magnetic Fields in Hadron Physics" http://www.ictp-saifr.org/wp-content/uploads/2015/05/all-abstracts_logo.pdf Workshop on Magnetic Fields in Hadron Physics ICTP/SAIFR ... www.ictp-saifr.org Workshop on Magnetic Fields in Hadron Physics . ICTP/SAIFR - São Paulo, BR . May 9 - 13, 2016 . List of Abstracts . MONDAY – May 9 . Uses and misuses of the NJL ... One posit of this field is that in a magnetic field of (10^12 –10^16 Tesla.), Localization of (anti-)quark orbits by magnetic field enhances chiral symmetry breaking effect of attractive interactions. See http://homepages.uni-regensburg.de/~eng14891/qcdB_workshop/pdf/QCDB_Mueller.pdf QCD in strong magnetic fields Charged vector mesons can condense in a superstrong magnetic field. This superstrong magnetic field can be considered a magnetic catalyst that produces charge parity violation thereby producing strange quarks and their mesons. The question then becomes, can Surface plasmon polaritons(SPP) amplify light/electron entanglement to the point where magnetism reaches very high strength, enough to produce a magnetic catalyst of mesons. When it comes to bose condinsation through ultra dense hydrogen as a way to amplify SPPs through superradiance, what matters is the number of SPPs that aggregate in that condinsate. An analogy of the additive aggregation principle is how 8,000 AA lithium batteries can produce enough power to propel a Tesla for over 200 miles. Quantum mechanics can do unexpected things. When protons and neutrons fall apart into mesons, the final result is a boatload of electrons that are fabricated from decaying nuclear matter. This is where the current observed in the Manelas Device might come from. A large anisotropic magnet might be strong enough to produce electrical power strong enough and properly focused to tear apart nuclear matter.
