Energy Evolution Program

Tuesday, April 19, 2016

Reconfigured Tesla coil aligns, electrifies materials from a distance




Nanotubes assemble! Rice introduces ‘Teslaphoresis’ 











This force-field effect on matter had never been observed on such a large scale, Cherukuri said, and the phenomenon was unknown to Nikola Tesla, who invented the coil in 1891 with the intention of delivering wireless electrical energy. 

(Editor's note: So long as the disconnect between the very small, the very large, and in-between - micro, macro, meso - stays disconnected, one can say whatever one wishes regards discoveries within their respective, specific dimensions, such as 'phenomena unknown to Tesla' .... to and including the 'earth is flat' tiny point of view syndrome. By mathematically uniting the disconnected, separate dimensions through the radius of curvature of all natural law, one finds this phenomena is precisely what Tesla envisioned and was working on, at the large scale.....The Nonlinearity of Physical Law)



 
Rice University chemist Paul Cherukuri, left, Texas A&M graduate student Lindsey Bornhoeft, center, and Rice research scientist Carter Kittrell show the power of Teslaphoresis, which wirelessly lights their fluorescent tubes. Tests with a customized Tesla coil revealed that nanotubes within the field self-assemble into wires. Photo by Jeff Fitlow 

“Electric fields have been used to move small objects, but only over ultrashort distances,” Cherukuri said. “With Teslaphoresis, we have the ability to massively scale up force fields to move matter remotely.” The researchers discovered that the phenomenon simultaneously assembles and powers circuits that harvest energy from the field. In one experiment, nanotubes assembled themselves into wires, formed a circuit connecting two LEDs and then absorbed energy from the Tesla coil’s field to light them............more
Surmounting the paranoid fear of contemporary science to blatantly disregard and ignore all new discoveries' associations with their past counterparts, especially from the metaphysical and spiritual spheres, has now become a necessity, namely due to massive accumulation of self-imposed limits to reality - i.e., The Possible Human:  Thus was born the two extreme views and separation of the same continuum, physics and metaphysics. To demonstrate that the path is the same regardless of the direction traveled, one of the many mutual reference points is quoted. In 1901, Max Planck's Law of radiation states … more

The stale, stagnant, 700 year old rocket concept in lieu of field propulsion, the natural and universal means of producing kinetic energy differentials, along with the claimed light speed limit, are examples of outrageous self-imposed, scientific limits.


















FOR A FASTER MERGER PACE OF PAST AND PRESENT - Here is How

A more refined view of E=MC2 discloses 
Light (C) as The Radius of Curvature of All Natural Law, equating to the kinetic energy equivalent of the mass energy of matter  
 meaning if a differential of energy equal to this quantity exists between the observer and the point which he is observing, the natural laws will be suspended. If the energy differential is in excess of the quantity C, the laws will appear to operate in reverse at that point.  

The far more fundamental and simpler definitions of space time mass matter energy gravity become mandatory:

Sunday, April 17, 2016

"We don't yet fully know what's going on in terms of the basic laws of physics"

ENERGY TECH
Physicists discover flaws in superconductor theory



This image of a magnet levitated over a high-temperature superconductor array shows rectangular TFMs (black) levitating a heavy ferromagnet (silver) above a container of liquid nitrogen. Image courtesy Weinstein and University of Houston. For a larger version of this image please go here.


University of Houston physicists report finding major theoretical flaws in the generally accepted understanding of how a superconductor traps and holds a magnetic field. More than 50 years ago, C.P. Bean, a scientist at General Electric, developed a theoretical explanation known as the "Bean Model" or "Critical State Model."
The basic property of superconductors is that they represent zero "resistance" to electrical circuits. In a way, they are the opposite of toasters, which resist electrical currents and thereby convert energy into heat. Superconductors consume zero energy and can store it for a long period of time. Those that store magnetic energy - known as "trapped field magnets" or TFMs - can behave like a magnet.
In the Journal of Applied Physics, from AIP Publishing, the researchers describe experiments whose results exhibited "significant deviations" from those of the Critical State Model. They revealed unexpected new behavior favorable to practical applications, including the possibility of using TFMs in myriad new ways...... more  

Weinstein and colleagues are now searching for fast, short-term support that will allow them to continue their research to explain this new phenomenon. "While we now know enough to apply our new discovery to significantly improve a large number of devices, we don't yet fully know what's going on in terms of the basic laws of physics," he noted.


OF THE FIELD PRINCIPLE: 

electric, magnetic, gravitational

Tom Bearden referring to "Broken Symmetry" Since the archaic old Electrical Engineering model was formed in the 1880s and 1890s, modern physics—including special and general relativity, quantum mechanics, quantum electrodynamics, gauge field theory, quantum field theory, and particle physics—has been born and developed. Physics has made a century of progress since the old EE model was “frozen” in 1892. Modern physics assures us that the vacuum/spacetime has enormous energy, and that it continually interacts with every charge in a circuit, system, and the universe, continually exchanging enormous—even mind-boggling—energy with it. Indeed, all forces in all our systems are produced by the interaction and exchange of virtual particles of the vacuum. To correct the horribly flawed EE problem, physicists in several disciplines—not just EEs and environmental scientists—must be directly involved. Trying to use electrical engineers to solve the problem—that their own discipline and model create in the first place—is utterly useless.




FOR A FASTER MERGER PACE OF PAST AND PRESENT - Here is How

A more refined view of E=MC2 discloses 
Light (C) as The Radius of Curvature of All Natural Law, equating to the kinetic energy equivalent of the mass energy of matter  
 meaning if a differential of energy equal to this quantity exists between the observer and the point which he is observing, the natural laws will be suspended. If the energy differential is in excess of the quantity C, the laws will appear to operate in reverse at that point.  

The far more fundamental and simpler definitions of space time mass matter energy gravity become mandatory:

World Renowned Physicist Explains The Reality Of “Free Energy” & How It’s Accessible 

 


 Tom Bearden – Open Source Energy Network 




 Walter Russell – Concepts of Light 


Monday, April 4, 2016

Superconductivity seen in a new light

Coexistence rather than competition - A universal standard somewhat missing in the revered halls of 21st century science.

















Superconducting materials have the characteristic of letting an electric current flow without resistance. The study of superconductors with a high critical temperature discovered in the 1980s remains a very attractive research subject for physicists. Indeed, many experimental observations still lack an adequate theoretical description.
Researchers from the University of Geneva (UNIGE) in Switzerland and the Technical University Munich in Germany have managed to lift the veil on the electronic characteristics of high-temperature superconductors.
Their research, published in Nature Communications, show that the electronic densities measured in these superconductors are a combination of two separate effects. As a result, they propose a new model that suggests the existence of two coexisting states rather than competing ones as was postulated for the past thirty years. A small revolution in the world of superconductivity.
A superconducting material is a material that, below a certain temperature, loses all electrical resistance (equal to zero). When immersed in a magnetic field, high-temperature superconductors (high-Tc) allow this field to penetrate in the form of filamentary regions, called vortices, in which the material is no longer superconducting. Each vortex is a whirl of electronic currents generating their own magnetic field and in which the electronic structure is different from the rest of the material.

Coexistence rather than competition

Some theoretical models describe high-Tc superconductors as a competition between two fundamental states, each developing its own spectral signature. The first is characterized by an ordered spatial arrangement of electrons. The second, corresponding to the superconducting phase, is characterized by electrons assembled in pairs.
"However, by measuring the density of electronic states with local tunneling spectroscopy, we discovered that the spectra that were attributed solely to the core of a vortex, where the material is not in the superconducting state, are also present elsewhere, that is to say in areas where the superconducting state exists.
This implies that these spectroscopic signatures do not originate in the vortex cores and cannot be in competition with the superconducting state", explains Christoph Renner, professor in the Department of Quantum Matter Physics of the Faculty of Science at UNIGE. "This study therefore questions the view that these two states are in competition, as largely assumed until now.
Instead, they turn out to be two coexisting states that together contribute to the measured spectra", professor Renner says. Indeed, physicists from UNIGE have shown, using theoretical simulation tools, that the experimental spectra can be reproduced perfectly by considering the superposition of the spectroscopic signature of a superconductor and this other electronic signature, brought to light through this new research.
This discovery is a breakthrough towards understanding the nature of the high temperature superconducting state. It puts some theoretical models based on the competition of the two states mentioned above in difficulty. It also sheds new light on the electronic nature of the vortex cores, which potentially has an impact on their dynamics. Mastery of this dynamics, and particularly of the anchoring of vortices that depend on their electronic nature, is critical for many applications, such as high field electromagnets.

What else might we learn from 'coexistence', 'flow', 'fields' (as in field propulsion - the natural and universal means of producing kinetic energy differentials), especially as it pertains to E=MC2.

 



































 














FOR A FASTER MERGER PACE OF PAST AND PRESENT - Here is How

A more refined view of E=MC2 discloses 
Light (C) as The Radius of Curvature of All Natural Law, equating to the kinetic energy equivalent of the mass energy of matter  
 meaning if a differential of energy equal to this quantity exists between the observer and the point which he is observing, the natural laws will be suspended. If the energy differential is in excess of the quantity C, the laws will appear to operate in reverse at that point.  
The far more fundamental and simpler definitions of space time mass matter energy gravity become mandatory:
....