“The question EVERYONE asks me in regards to Randell Mills and The Grand Unified Theory Of Classical Physics is “How can this guy claim to have single-handedly overturned hundred years of theoretical physics, at the same discovered a clean new energy source, and yet no-one has ever heard of him?… Why is he not recognised globally as the genius you claim him to be?”… Well! 😉
That is an extremely difficult and complicated question to answer. The answer encompasses many aspects of the story including:-
– the failure of Cold Fusion (and Mills’ incorrectly labelling to)
– the rejection of new ideas of theories within physics (especially post 1926 Standard Quantum Mechanics)
– Tribalism and socialisation within academic structures
– Organised scepticism (including blatant slander and misinformation regarding Mills and his company)
– Reluctance to fully investigate or invest from within the US Government (Department of Energy, organised resistance from fossil fuel lobbies, what I suspect is organised campaign from intelligence agencies closely connected to oil industry)
– Modern philosophical biases
– Reluctance from fellow scientists, Universities and institutions regarding the risk of ostracism
– The fact new breakthroughs and paradigm shifts in science have historically been met with resistance from peers (Keynes)
– Mills’ lack of ‘physics’ credentials
– Issues regarding patent applications
Stolper has been a long time follower of Mills, and has expertly authored an account of how and why Mills’ work has been pretty much disregarded and ignored up to 2006 (and obviously still is today). It includes thorough research into Mills’ history, the cultural context of his work in regards to 20th century physics, names and places of those involved both supportive and critical, possible confirmations of Mills’ theory, various social and cultural reasons for it’s dismissal and similar scenarios throughout scientific history, the ramifications this discovery will have upon theoretical physics, cosmology, energy industry… a monumental and truly historic story spanning a story that is over 100 years in the making, and due to now explode onto the world!
“The book is neither a biography of Mills nor a history of his company, BlackLight Power. The book tries to answer the question, why hasn’t their work had a friendlier reception? One answer: the 1989 cold fusion fiasco, with which Mills’ critics falsely identified him after he surfaced in The New York Times in 1991. Another answer: Mills’ sweeping challenge to the theoretical physicists, who journal editors, scientists, graduate students, science writers, science managers, venture capitalists, the funding agencies, Congress, and the attentive public alike are still taught to hold in awe, even though astronomy has now shown that their pet theories can explain less than 5% of everything out there. The book is extensively documented for those who would like to read more about any of the topics mentioned.”
IT IS A MUST HAVE FOR ANYONE INTERESTED IN THE TOPIC!
It will be source of much of the information I intend to write about in this blog… … and no I’m not lending it out! (ONE COPY AT $1500! feck off!)
I also recommend the following TEDTalk… “This talk was given at a local TEDx event, produced independently of the TED Conferences. Paul Rulkens is an expert in achieving big goals in the easiest, fastest and most elegant way possible. Originally trained as a chemical engineer, he has moved his focus to the fascinating field of high performance.
Paul Rulkens is an expert in achieving big goals in the easiest, fastest and most elegant way possible. Originally trained as a chemical engineer, he has moved his focus to the fascinating field of high performance. His work is based on his knowledge and experience about the practical application of behavioral psychology, neuroscience and especially common sense. He currently works worldwide to make successful people, teams and organizations even more successful.”
“Fraud or the most gifted thinker of our time?… Well that’s the $8 trillion question!”
The following post has been submitted by Optiongeek Prof. Huub Bakker, a senior lecturer in engineering at Massey University, presented the following lecture on Randell Mills’ Grand Unified Theory of Classical Physics (GUTCP). Prof. Tony Signal, representing the Physics Dept., responded with a critical view.
Prof. Bakker’s presentation is a survey of Mills’ 1800-page thesis and necessarily omits any deep analysis or mathematical proofs. Nevertheless, it is a fascinating introduction to the topic and he forcefully makes the point that Mills is either a fraud or the most gifted thinker of our time. According to Bakker, “there is no middle ground.”
The lecture begins at timestamp 04:30. http://webcast.massey.ac.nz/Mediasite/Play/8ef7e03e26fc458b8eb7f351738f26811d
“The following article is authored by Koroeda at Philosophystorm.org . The article is translated from Russian, and I recommend you visit the site and check out previous articles from the author on the subject of GUT-CP and hydrino theory (I will post in following weeks). I’ve just translated and pasted into English, because the author has done a superb explanation of the history, the science and magnitude of this discovery. Also an introduction to Millsian.com, a molecular modelling software developed by Mills, which is proving to be far more accurate in solving atoms and molecules than any previous ‘Quantum’ modelling. I imagine such software and applications will lead to new developments in genetic biology, pharmaceuticals, neuroscience etc…
And hats off the Russians! ;D … Ushankas?”
(“Do I think the Russians will pay for this technology?… Do I bollocks! 😀 Well ‘head in the stars, feet on the ground’ so to speak… Russians, Chinese… Israel sure as f**k won’t pay for it! ;D … I’ll elaborate on my views concerning geo-politics in future posts!… … who gives a shit for the Brits?” )
His Majesty the Electron
Systematization and communication
Science and Technology
The turn of the 19th and early 20th centuries was really a great era, a turning point in the history of mankind. The moment of the “phase transition” of quantitative changes in qualitative, time of great discoveries that occurred one after another, radically changed the face of civilization. It was a true revolution in science and technology, when the human mind finally got enough tools to comprehend the greatest mystery-the riddle of the structure of matter.
April 30, 1897, there was a momentous event. On that day, the head of the Cavendish Laboratory, the English physicist JJ Thomson, spoke at a meeting of the Royal Society of London about his experiments with an improved cathode-ray tube, which led to the discovery of the first elementary electron particle. This day is considered the “birthday” of the electron, although Thomson’s discovery was only the final point in the many years of work of a number of scientists. The discovery of the electron had a tremendous impact on the development of science and technology. In fact, it has become a cornerstone for the whole building of modern civilization.
From this moment on, physicists began to advance different models of the structure of the atom, striving to bring it as close as possible to the experimental data obtained. It was quite a normal scientific process, where as the new data was received, the model also changed.
Thomson himself proposed his model in 1904, assuming that the atom is a positively charged sphere with electrons embedded in it, a kind of “plum pudding”. The Thomson model was experimentally disproved by Geiger and Mardsen in 1909, by experimenting with the scattering of alpha particles on a gold foil.
The next model of the atom was proposed by the discoverer of the proton, Ernest Rutherford. It was the so-called Planetary model, according to which negatively charged electrons move around a positively charged nucleus along circular orbits like planets in the solar system. It was a long-known and accepted in science model. So why not apply it to the atom? This is exactly what Rutherford did. However, this model had a cardinal drawback-the impossibility of explaining it to the stability of atoms. From classical electrodynamics it follows that if electrons move around the nucleus, experiencing centripetal acceleration as planets around the Sun, then they would, according to the laws of classical electrodynamics, emit electromagnetic waves, lose orbital energy of motion and, as a result, fall on the nucleus.
This problem had to be solved somehow, as a result of which, in 1913, an “improved model” of the atom-quantum model of Niels Bohr appeared. In contrast to the Rutherford model, in the quantum model, electrons move around the nucleus not in arbitrary orbits, but only in orbits with a strictly defined energy and are kept at a certain distance from the nucleus, because the centrifugal force leading an electron from the orbit coincides in magnitude with force of attraction between the electron and the nucleus. In turn, radiation or absorption occurs only at the moment of transition from one orbit to another, and only those orbits are stationary, in which motion the momentum of an electron is equal to an integer number of Planck’s constant. This model proved to be quite applicable to the simplest atom-hydrogen atom, but it did not work well in describing more complex atoms.
Nevertheless, it was taken as the basis that lies at the basis of the modern quantum-mechanical model of the atom. In the modern quantum-mechanical representation, the electron appears in the form of an “electron cloud” whose density of sections is proportional to the probability of finding an electron there. It is noteworthy that in the modern quantum-mechanical representation, an electron has no structure, being an unstructured particle.
This was a momentous moment in the history of science, a kind of “frontier strip” that separated the era of classical physics from quantum mechanical. For a long time, bitter arguments were being waged around quantum mechanics, and many outstanding minds, such as Albert Einstein, never accepted it. But over time quantum mechanics, and its generated ideas about the structure and properties of matter, have become dominant. Rather, the “Copenhagen school” of quantum mechanics, founded by Niels Bohr, dominated in science.
However, to what extent is the currently accepted model of electron in quantum mechanics close to reality? The very formulation of this question looks in the eyes of the orthodox physicists seditious. And meanwhile, the question of this by the present moment is more acute than ever. Why?
As you know, the main criterion for the truth of any theory is practice. So once, at one time, classical mechanics led to the implementation of a number of engineering innovations in real life, and in many ways was the reason for the beginning of the industrial revolution. The physical picture of the world that was true for its time served as the basis for a whole series of technological breakthroughs that laid the foundation of modern civilization.
According to this logic, quantum mechanics, which became the “Holy Grail” of modern physics, should lead to a huge number of them. However, in due measure this did not happen. Moreover, according to some physicists, stagnation has begun in physical science, which can be characterized as a period of “60 years without victories”.
What was the reason for this? Perhaps, not quite true physical picture of the world, a little connected with a reality? And how can it be that entire generations of scientists still do not notice this? And if they noticed, then why did not they take the courage to openly state this?
Probably, the answer to this question lies primarily in the social plane, in the very structure of science as a social phenomenon. The community of scientists is a community of people, and nothing human is alien to them. It has the same “social mechanisms” as in human society as a whole. For example, the oldest and most effective of them is authority. And as you know, an authoritative idea or teaching, gaining a lot of supporters (mastering the masses), becomes a “material force”. But at the same time, often, it becomes a doctrine (an important management tool), the encroachment on which is a fierce rebuff from its supporters. There is a remarkable irony in the fact that K. Marx himself, who first deduced this formula, became its victim.
Is it possible to encroach on the authority of the famous scientist, without corresponding consequences? Is it possible to try to refute the generally accepted system of views without “insulting the feelings” of its followers? The history of mankind gives a very unequivocal answer to this question. At best, the brave soul awaits the fate of Galileo, at worst the fate of Bruno. Although there were exceptions. But they only confirm the rule: the struggle of ideas is sometimes as brutal as the struggle of their bearers-people. However, time after time, sooner or later, Galileo still appears, and this is just as natural as the “fall” of an apple on Newton’s head. Human thought can not be stopped. So it happened this time.
Science continued to accumulate experimental data, and over time a large number of puzzles, requiring explanation, accumulated. And it is quite natural that scientists who tried to solve them tried to look differently at the model of the electron. However, for a long time these attempts were unsuccessful. Probably, this was a consequence of the fact that theoretical physicists continued to think in the former, quantum-mechanical paradigm, which was a strong binding factor for scientific thought. Having done a “turn wrong”, science was in a long dead end. The way out of it was impossible without a radical change in the paradigm of thinking, the development of a fundamentally new understanding of the mechanism of the behavior of an electron.
Finally, a way out of the current impasse was found by the famous American scientist, Dr. Randall Mills. It was for him, for the first time, that he was able to offer a much more successful, alternative model of the electron, which explains the mechanism of its behavior in a fundamentally different way, rather than the quantum-mechanical model.
A new concept of the electron was expounded by Dr. Mills in his fundamental theoretical work The Grand Unified Theory of Classical Physics.
What is an electron in the model of Dr. Mills?
Here is a visual picture of this model.
In the understanding of Dr. Mills, an electron outside the atom, a free electron, is a two-dimensional, indivisible membrane (a flat thin film) consisting of negatively charged current loops that, when captured by a charge of the nucleus, can completely change its shape (spherical).
Thus, an electron in an atom is an “orbit-sphere” -spherical shell (like a soap bubble) surrounding the nucleus. However, this sphere is not monolithic, but consists of a continuous distribution of current loops that create two angular momentum vectors that generate the electron spin phenomenon. In general, the orbit is a very thin superconducting surface with a homogeneous mass and charge density.
In the atom, the orbitsphere functions as a “dynamically resonating cavity,” expanding and contracting as it absorbs and emits discrete frequencies of light (photons), which is the physical basis of quantization. After capture, the electric fields of the photons change the balance of forces that exists between the proton and the electron. The combination of the properties of the electron orbit and captured photon determines the radius of the electron shell. When the absorbed photons increase the radius of an electron before it is ionized, it becomes a free electron, which again returns to the shape of the disk in the absence of external fields that affect its curvature.
Here is a graphic picture of what electrons represent in an atom, using the example of the first 20 elements of the periodic table.
In molecules, electrons are stretched into two nuclei, forming an elongated spheroidal shell with nuclei in foci, the so-called “molecular orbital”.
So, the simplest molecule, the hydrogen molecule looks like this.
And this is what a molecule of water looks like
Thus, according to the theory of Dr. Mills, atoms and bonds consist of discrete surfaces of negative charge, rather than clouds of probability density. This approach otherwise solves the problem of the stability of an atom rather than a quantum mechanical model, returning the understanding of an electron to the channel of classical physics (Maxwell’s electrodynamics). This, a completely new understanding of the nature of the electron, served as the basis for a whole series of discoveries.
However, initially, the new understanding of the nature of the electron put forward by Dr. Mills was very skeptical in the scientific community, since it fundamentally contradicted the widespread quantum mechanical concepts about it. He was attacked by a flurry of criticism from “authoritative scientists”.
In this case, the question arises: how true is the model of Dr. Mills?
Rather, it is legitimate to ask another question: how much closer is it to reality than the quantum mechanical model? And what remains “in the dry”, if you delete the “authoritative opinions” of many critics of Mills, whose main accusation is that he encroached on the established, well-known, and so all explaining, old, good quantum mechanics, devaluing the scientific authority of the set Its followers, both in the past and in the present?
Correctly. Already mentioned, the only criterion of the truth of theory-practice.
Everything is relative. So what are the practical results of applying the new model of the electron, and the theory based on it?
And what do we need models for? Naturally, in order to obtain explanations and generate predictions. And, the better the explanations, and the more effective the predictions, the better the model works. It was in this field that the new model of Dr. Mills proved to be the best.
One of the directions, where the new model of the atom showed its amazing effectiveness, was analytical chemistry, namely, computer simulation of molecular structures. The computer simulation program developed on the basis of the Mills theory (at the present moment-Millsian 2.1) proved to be much more efficient in calculations than its competitors based on the quantum-mechanical model.
Here is a comparative graph of the effectiveness of the two models.
As can be seen from the graph, the effectiveness of Dr. Mills’s model is many times higher, which allows us to calculate and present accurate profiles for molecules of any size and complexity, and with amazing accuracy to model such complex molecules as insulin and DNA.
It is noteworthy that the images of molecules made under an electron microscope and the molecular models obtained by Mills coincide almost completely. Here, for example, a photograph of a molecule of pentacin superimposed on its own computer model.
Thus, the new model of the structure of the atom, put forward by Dr. Randall Mills, proved to be very effective in the field of modeling, showing excellent results in predictions.
However, GUT-CP theory of Dr. Mills became breakthrough not only in chemistry, but also in many other areas in science and technology. For example, in cosmology, where she solved many mysteries, such as the mystery of the solar corona, the mystery of dark matter, the mystery of the phenomenon of accelerating the expansion of the universe, and even the riddle of the phenomenon of gravity.
But the most remarkable, fateful for the history of mankind breakthrough Dr. Randall Mills committed in the field of energy, because his theory predicted the existence of a particularly compact state of hydrogen-hydrino (see Fig. Hydrinos in the periodic table above). Turning into hydrino, hydrogen releases a huge amount of energy, hundreds of times more than when burning hydrogen.
The discovery of hydrino served as the basis for the creation of a compact, cheap, incredibly powerful and environmentally friendly energy source that will in future allow humanity to solve such a fundamental problem as dependence on fossil fuels and the associated problem of harmful emissions into the atmosphere. The introduction of a new source of energy, as has already happened more than once in the history of mankind, in the future will lead to a new industrial revolution, radically changing the face of human civilization.
Solving the riddle of the electron, and putting forward a fundamentally new physical picture of the world, Dr. Randall Mills laid the foundation for another revolution in science and technology.
Is this enough to defeat skepticism?
“Icarus flew too close to the sun, but at least he flew.”
I personally contacted the BBC on two occasions on 2016 and 2017, in regards to making a BBC Horizon documentary (superb documentary television series), on the work of Dr Randell Mills, Brilliant Light Power and his ‘hydrino’ theory. The response was ‘we have never heard of Dr Randell Mills or his theory’… I had to correct them and kindly inform them that in fact Mills was featured on the show in 1994 in the episode ‘Too Close To the Sun’. An episode investigating the science and theories surrounding the infamous ‘Cold Fusion’ phenomenon (Pons and Fleischman). Although Mills has ALWAYS stated that his hydrino theory is NOT ‘Cold Fusion’, he appeared on the episode to propose his alternative explanation to the excess heat results that where (and still are) recorded in laboratories around the world. I personally believe, like many of Mills’ supporters, that the excess heat results recorded in numerous ‘Cold Fusion’ experiments around the world to this day, are in fact a form of ‘hydrino’ reaction taking place, but because the theories behind Cold Fusion are incorrect, and thus not replicable, it has sadly been ignored and dismissed as ‘fringe science’.
NOTE – Dr Mills has NEVER claimed ‘Cold Fusion’. Although many attempts have been made to link his work to the theory, he has always stated that it is NOT a Cold Fusion reaction, or even any sort of nuclear reaction that is taking place, but in fact a form of chemical catalyst (i.e. hydrino)
It is worth watching the entire documentary to get a perspective of the Cold Fusion story, but skip to 21.17 for the brief interview of Randell Mills.
“So the BBC are prepared to entertain us with necro, paedo serial sex offender Sir Jimmy Saville for fifty years… but try getting them to do ONE Horizon documentary on the greatest scientific discovery of our age!” “Let it go Danny Boy… let it go!”
The term ‘hydrino’ energy has been coined by Dr Randell Mills of Brilliant Light Power, to describe the lower than ground state of hydrogen, that he has not only discovered, but has utilised in developing an extraordinary energy source never before witnessed in nature.
Mills’ theory, called The Grand Unified Theory Of Classical Physics (GUT-CP), was developed in 1989. Mills’ first publication was 1990 entitled The Grand Unified Theory, but has been developed, tweaked, and expanded upon into the present GUT-CP. In short, he has gone back to the Bohr model of the atom 1913, and used Classical Laws to solve the structure of atom. In Mills model the electron exists not as a point charge of mass radiating around the nucleus (planetary model), but as a spherical membrane shell of charge surrounding the nucleus of an atom (dubbed ‘the electron orbitsphere’). GUT-CP has been found to be more accurate than Quantum Mechanics in calculating both ground and excited states of hydrogen, helium, & others, and expanded to account for almost all atoms and molecules.
Mills has discovered that the electron in a hydrogen atom CAN fall to lower state of orbit with certain catalysts in a resonant coupling reaction (thus being a chemical reaction), at integer fractions of the ground state radius (1/2, 1/3, 1/4 continuing all the way to 1/137). Each reaction releases energy in the form of light, and each integer releases more energy than the previous in multiples of 27.2 electron volts per atom. Thus 1/3 hydrino releases 54.4, 1/4 hydrino releases 81.6 and so on until at 1/137 hydrino state 3,699.2 eV is released!
Obviously this goes against everything that Quantum Physicists tell us about the atom and the electron, but Niels Bohr NEVER gave a full satisfactory explanation as to why the hydrogen could not fall below it’s ‘ground state’. The problem of radiation had plagued 20th century physics ever since.