The Quantum Model of Relativistic Phenomena
From NeWiki for a New World
The Quantum Model of Relativistic Phenomena (QMRP) is a physics theory discovered by an American Physicist and Engineer born in Romania, Dr. Dan Brasoveanu in 2005 after finding fundamental errors in Quantum Mechanics and Special Relativity Theory.
[edit] History
For a long time physicist have tried and failed to reconcile QM and relativity. This failure should have been expected by any one who read Einstein’s first paper on Special Relativity Theory (SRT). In his own words: “The Theory of Relativity leads to the same law of motion without requiring any special hypothesis whatsoever as to the structure and the behavior of the electron”. This statement is an outright rejection of any possible connection between quantum and relativistic phenomena and therefore a tacit admission that special not to mention general relativity is designed to be incompatible with any theory of quantum phenomena.
There are deep organic inter-connections between all natural phenomena, which must be captured by any theory in order to endure. Therefore Dan Brasoveanu sought a theory of relativity based on organic connections with quantum phenomena. He was also aware that established theories cannot be entirely discarded because all theories lacking a kernel of truth are swiftly rejected. Therefore the quest for a superior theory of relativity must start with an-in depth analysis of Einstein’s theory. Numerous experiments have proven Lorentz’s transformations accurately predict mass increase, length contraction and retardation of clocks with speed. On this point there can be no debate. Lorentz’s transformation and theory of relativity have been experimentally validated. Because SRT incorporates Lorentz’s transformation, the establishment claims SRT has also been validated. Nothing can be further from the truth. Predictions based on Lorentz’s relativity and SRT agree only when the relative velocity between observer and object under study is approximately equal to the absolute velocity of object, i.e., when the observer’s absolute velocity is negligible. Relativistic effects are immeasurably small if the absolute velocity of an object is less than several thousand kilometers per second. By comparison, Earth velocity is negligible, therefore the absolute and relative velocity of the object are virtually equal. As a result, most experiments carried out on the ground cannot be used to discriminate between SRT and Lorentz’s relativity. Excellent agreement between such experiments and SRT is by no means proof of validity. SRT has not been tested with respect to fast moving frames of reference, due to technical difficulties. Besides, such tests are not required to debunk SRT. The so-called “principle of relativity” makes SRT self-contradictory and guarantees failures. Furthermore, Marme has demonstrated the principle of relativity violates the law of energy conservation. Despite desperate attempts to suppress Marme’s and Dingle’s papers, analyses of Sagnac’ effect, Wallace’s radar measurements and a host of other inconvenient truths, the establishment can no longer hide the need to replace SRT. Because the principle of relativity is untenable, Lorentz’s theory must be considered basically sound. But Lorentz has also made an untenable assumption: fast moving bodies contract due to aether pressure. This assumption explains why the establishment has rejected Lorentz’s and subsequent theories of relativity based on Classical Physics and embraced SRT.
The history of relativity debate illustrates the extreme danger posed by add-hoc hypotheses such as the “principle” of relativity and the existence of aether. Hypotheses are akin to building pillars. Add-hoc hypotheses are rotten pillars. Nature is unitary therefore there is no place for add-hoc hypotheses in physics. All physics theories must rely on a common block of hypotheses. Theories that do not are destined to fail.
Nevertheless both Lorentz and Einstein have made crucial contributions. Lorentz has provided the transformation equations and argued there must be a link between quantum and relativistic phenomena, a very astute observation. Einstein has shown that SRT and the existence of an absolute frame of reference are mutually exclusive. Therefore the collapse of SRT proves the existence of an absolute frame of reference. As a result, Dan Brasoveanu’s Theory of Relativity relies on the idea of an organic link between quantum and relativistic phenomena and on the absolute frame of reference. QMRP is therefore organically compatible with both Classical Physics and TIE. QMRP is free of add-hoc hypotheses. Classical Physics, TIE and QMRP share a common block of hypotheses.
“Elementary” particles are made from components called fermions glued by force quanta called bosons (hereafter called inner quanta). The average energy of inner quanta and particle velocity are correlated due to the Classical Doppler Effect. The average energy of inner quanta is equal to the energy of a quanta released by a component at rest multiplied by Lorentz’s factor. “Elementary” particles are systems of interacting oscillators; therefore according to the law of energy equipartition all these oscillators have the same average energy. Mass quantifies the internal energy of a particle and is therefore proportional to total relativistic energy. Mass therefore increases with velocity. This increase causes longitudinal length contraction and clock retardation, i.e., the slow down of some processes (which should not be considered to mean time dilation)
[edit] Main Tenets of Quantum Model of Relativistic Phenomena
The Special Theory of Relativity is untenable. Therefore, there is an absolute frame of reference.
All theories of physics must be organically linked because nature is unitary. Therefore, Classical Physics, QMRP and TIE share a common block of hypotheses and form an indivisible entity.
Quantum and relativistic phenomena are closely linked. The Classic Doppler Effect explains why mass dependence on velocity is quantified by Lorentz’s transformation. Mass increase causes longitudinal length contraction and retardation of clocks. Mass is a measure of internal energy
