FANDOM


By prof. LEFTERIS KALIAMBOS (Λευτέρης Καλιαμπός

Lk6

T. E. Institute of Larissa Greece

This paper was announced to many universities around the world (February 2014)

Under the strong influence of Einstein’s invalid relativity today physicists believe that the Galilean relativity deduced from the well-established laws of Newton  must be used not as a relativity of laws  but as an old theory. For example writing in Google RELATIITY OF LAWS one sees not the correct relativity of laws but Einstein’s theories of invalid relativity. Einstein in 1905  based on wrong Maxwell’s fields moving through a fallacious ether explained incorrectly the photoelectric effect which led to his invalid relativity by violating  not only the two conservation laws of energy and mass but also the principle of relativity. Especially under his massless quanta of  wrong Maxwell’s fields he believed that the absorption of light in the photoelectric effect contributes only to the increase of the electron energy. In fact, after the experiment of the two American physicists French and Tessman (1963) who showed the fallacy of Maxwell’s fields I showed that light consists not of fields but of dipolic photons which contribute not only to the increase of the electron energy ΔΕ but also to the increase of the electron mass ΔΜ .

Olympia

Olympia 1993 Einstein's quanta led to wrong relativity


On this basis I presented  my paper  “Impact of Maxwell’s equation of displacement current on electromagnetic laws and comparison of the Maxwellian waves with our model of dipolic particles  at the international conference “Frontiers of fundamental physics”   (Olympia 1993). In that paper I presented my DISCOVERY OF DIPOLE NATURE OF PHOTON according to which  LAWS AND EXPERIMENTS INVALIDATE FIELDS AND RELATIVITY .

Nevertheless writing in Google "RELATIVITY OF LAWS" one reads not the well-established laws of the principle of relativity but the CONTRADICTING RELATIVITY THEORIES of Einstein. So in the  “Theory of relativity-Wikipedia” one  reads:

 “The theory of relativity, or simply relativity in physics, usually encompasses two theories by Albert Einstein: special relativity and general relativity. (The word relativity can also be used in the context of an older theory, that of Galilean invariance.)”.

LefterisKaliambosbiography2 html m5716dd1f

N.C.S.R. "Demokritos" (2002)


Note that later in my paper “Nuclear structure is governed by the fundamental laws of electromagnetism” I presented at the 12th symposium of the Hellenic nuclear physics society  (NCSR “Demokritos”, 2002 ) my  DISCOVERY OF NUCLEAR FORCE AND STRUCTURE based not on  Einstein's invalid relativity and wrong nuclear theories but on elecromagnetic laws according to which the mass defect in atoms and nuclei cannot turn into energy.

Whereas in the “Theory of relativity –Wikipedia” one can also  read:  “Third, special relativity was accepted in the physics community by 1920. This theory rapidly became a significant and necessary tool for theorists and experimentalists in the new fields of atomic physics, nuclear physics, and quantum mechanics. Conversely, general relativity did not appear to be as useful. There appeared to be little applicability for experimentalists as most applications were for astronomical scales. It seemed limited to only making minor corrections to predictions of Newtonian gravitation theory”.

According to natural laws gravitational accelerations occur with respect to favored positions or frames of reference under  a universal gravity acting continuously at a distance. Whereas the Galilean relativity of laws is based on the observations of a ship moving with respect to the earth’s surface as a result of short time net contact forces due to non mechanical energies on our earth.

Then,  for replacing Einstein’s wrong  theories of relativity  by the well-established laws I analyzed  carefully  Newton’s  local absolute motions  of two bodies orbiting around a common barycenter.  On this basis  one concludes that the gravity acting continuously at a distance proceeds from  simple systems to  compound ones with favored reference frames .  For example in the simplest system  [ earth-astronaut ] an astronaut orbits around the barycenter which is at the center of the earth, because his mass is much  less than the mass of the earth.  Since in the  compound system  [ sun-(earth, astronaut) ]  both the earth and the astronaut behave like a point mass  orbiting around the favored  sun,  then, in the same way the most compound solar system moves around the center of our galaxy, and so forth.

Note that the astronaut feels always weightless,  because in the simplest system [ earth-astronaut ] the inertial force (centrifugal force) counterbalances the gravity due to earth.  Moreover in the compound system [sun - (earth , astronaut)]  the  inertial force  due to acceleration around the sun is equal to the gravity due to the sun, and so forth. In other words, the astronaut feels weightless under a local motion with respect to the center of the earth like an observer in a falling lift in vacuum,  no matter  how large is the mass of the sun or the galaxy.

In these gravitational accelerations  and in the inertial frames  like the  elastic  collisions the time and space are described homogeneously, and in a time- independent manner.  So  physical laws take the same form in these reference frames. However in quantum dynamics I discovered that the PHOTON-MATTER INTERACTION occurs under a length contraction and a time dilation. Similar conditions occur also in some uniform linear motions as in the case of a  box falling through the atmosphere in which some mechanical energy turns into heat  due to the air resistance.

In such  a uniform linear motion since the contact force (drag) cannot be transmitted to the observer inside the box, and in the absence of an inertial force, the observer moving uniformly with respect to the earth’s surface feels only the gravity due to the earth,  like a stationary observer on the surface of the earth, who also feels only the gravity, because the upward contact force (normal) cannot be transmitted to him.

To conclude,  for the simple system [earth-observer] in which our  earth is the favored reference  frame the relativity of gravitational accelerations is characterized by the two equal forces of gravity and inertia, while in relativity of uniform linear motions the rest position ( connected to the favored earth’s surface ) and the uniform linear motion are characterized by an equality between gravity acting at a distance and the contact forces which cannot be transmitted to the observer.

In my  paper EINSTEIN by L. Kaliambos I noticed that the Galilean relativity of laws is the result of short time  contact forces, as in the case of explosions according to which  Newton’s rectangular particles of light move with respect to the source of radiation. Thus  in a train moving with respect to the earth’s surface the α ,  β,  and γ  particles move with respect to the radioactive material,  no matter how large is the linear motion of the train.

Note that  the  ship in Galileo’s relativity of laws moves as a result of short time net contact forces due to non mechanical energies on our earth. Then, under a net zero force it moves uniformly  with respect to the surface of the earth,  because the mass of the earth is much more greater than the mass of the ship.

 These situations  based on natural laws invalidate the equivalent reference frames of Einstein’s special relativity  (1905) who believed that any observer moving with an electron in an accelerator can measure the same increase of mass of stationary bodies in laboratory. Then ,  as early as 1907 Einstein was showing dissatisfaction with his strange ideas  and in his  general relativity he  reintroduced the fallacious ether in his  false “ ether structure” or the strange “curvature of spacetime”  based on wrong fields and on philosophical speculations. Since all these confusing ideas led to complications Einstein in 1954 expressed his frustration to his friend  Besso.

 

HISTORY OF RELATIVITY OF LAWS

In the absence of any knowledge about the at a distance electromagnetic forces in nuclear physics which give the contact forces of Galileo’s moving ship, Newton in his first law did not mention the contact forces of short time, which give the uniform linear motions in elastic collisions or in the system [Earth-Observer] under the favored reference frame of our earth. Nevertheless, his rectangular particles of light are moving with respect to the source of radiation. For example when a spectroscope moves with respect to a source of light we measure different frequency. Under this condition I  showed  that the α  and β  particles along with the  γ particles of mass  m = hν/c2  move with respect to a radioactive material in a moving train no matter how large is the uniform linear motion of the train. For example all stationary observers on a moving train measure the same frequency of the gamma rays of the radioactive material, while an observer on the earth will measure a different frequency. In this case, in the spectroscope we measure not any greater velocity than c but the increase of the photon mass. In the same way when the velocity c is parallel to gravity F we apply the second law of Newton as F = dp/dt = cdm/dt. That is, any acceleration along the direction of c is always zero under a length contraction and a time dilation. (See my WRONG AND CORRECT EINSTEIN   ).

Moreover in the two-body collisions we see that the point of reference is the local position of the collision in which the uniform motions are the result of short time forces. In the same way in an explosion the objects move with respect to the local position of the explosion. However in Galileo’s relativity of laws  the ship moves with respect to the surface of the earth, because the mass of the earth is much more greater than the mass of the ship. So in Galileo’s relativity of laws our earth is the favored reference frame. That is, all natural laws are the same on both the earth and the ship which moves uniformly with respect to the earth no matter what is the motion of the earth around the sun.

However Galileo postulated his principle of relativity in generalities: “Any two observers moving at constant speed and direction with respect to one another will obtain the same results for all mechanical experiments”

So Newton under Galileo’s generalities  formulated his laws in  connection with the Galilean principle of relativity. That is, he believed that all inertial frames are equivalent. He wrote:

“From the positions and distances of things from any body considered as immovable, we define all places, and then with respect to such places, we estimate all motion… And so, instead of  absolute places and motions, we use relative ones”.

Under such generalities in “Linear motion-Encyclopedia Britannica” one reads:

 “In classical Newtonian mechanics, there is no important distinction between rest and uniform motion in a straight line; they may be regarded as the same state of motion seen by different observers, one moving at the same velocity as the particle, the other moving at constant velocity with respect to the particle”.

In fact, in the Galilean relativity of laws one can distinguish the stationary observer from the moving one, because  the motion of the ship is the result of short time net contact forces due to non mechanical energies on our earth. It is well-known that the energy of the sun’s rays is indeed the source of various forms of non mechanical energies that make life possible on earth. The energy of the winds responsible for the motion of Galileo’s ship is also derived from the energy of the sun’s rays falling on and heating the surface of the earth. To conclude, all uniform linear motions on our earth are the result of short time contact forces of non mechanical energies due to sun’s falling rays. Also all observers move with respect to the earth’s surface because their mass is much less than the earth’s mass.

And  yet, Newton also wrote: “The center of the system of the world is immovable. This is acknowledged by all, while some contend that the earth, others that the sun, is fixed in that center”.

Today under the  model of Big Bang some cosmologist believe that the primordial Big Bang was immovable in our observable universe. In fact, our observable universe is a part of an eternal cosmos in which we cannot identify any rest frame of reference. ( See my papers OUR EARLY UNIVERSE and OUR UNIVERSE ). The reason the true “immovable” center of the world cannot be identified is inherent in Newton’s laws of motion.  

 In the Galilean relativity of laws the contact forces (wind and friction ) cannot be transmitted to the sailor. Thus when the ship starts the force of the wind is greater than the frictional force and the ship accelerates. In this case since the contact forces cannot be transmitted to the sailor the sailor feels only the inertial force like the observers on an accelerating car.

However in a space craft orbiting about the earth the gravity acting continuously at a distance is transmitted to the astronaut. In this case the acceleration of the astronaut causes the inertial force (centrifugal force) which cancels the gravity, and the astronaut feels weightless like an observer at the center of the earth.

For such rotating systems taking into account NEWTON’S BUCKET ARGUMENT  and the barycenter of a binary star system I revealed  the reference points in both uniform motions (collisions) and gravitational accelerations. But for our  very simple system [Earth-Observer] the barycenter is at the center of the earth, while in the compound system [Sun-(Earth, Observer)] the barycenter is at the center of the sun which cannot affect the motions of all observers on the earth because the acceleration of earth around the sun cancels the gravity due to the sun.

These fundamental situations invalidate Einstein’s equivalent reference frames of his special relativity according to which a hypothetical observer moving with an electron in an accelerator of a laboratory can measure incorrectly the same increase of mass of stationary objects in the laboratory. Under this fallacious idea in his general relativity influenced by his reading of the critiques of Newtonian science by Hume and Mach Einstein believed that the inertial frames are moving with respect to the fallacious “fixed stars” connected with the fallacious “ether structure” or the strange “curvature of vacuum”.  In fact, in the Galilean relativity of laws the dropped stone always falls along a tower or along the mast of the moving ship no matter how large is the mass of the sun.

Ironically Einstein in his general relativity used Newton’s constant inertial mass (Equivalence principle), which invalidates his concept of relativistic mass. On the other hand the experiments of the increase of mass of accelerated particles, the mass defect in atomic and nuclear physics, the bending of light, the gravitational red shift etc.,  are due to our discovery of photon-matter interaction occurring under a length contraction and a time dilation. Note that Einstein’s hypotheses of the “ether structure” or the strange “curvature of specetime” based on wrong fields and philosophical speculations cannot replace the well-established laws. (See my NEW REVOLUTION IN PHYSICS ).

 

CONTRADICTING RELATI VITY THEORIES OF EINSTEIN LED TO THE CRISIS OF PHYSICS

Though the Michelson experiment (1887) rejected the fallacious Maxwell’s ether, Lorentz (1904) in order to explain the increase of the electron mass of Kaufmann’s experiment (1901) under the influence of Maxwell’s wrong moving fields (1865) was based not on laws but on the fallacious ether. Thus he suggested that the null result of the Michelson experiment can be explained not by the rejection of the ether but by the time and mass dilation when the objects move through the ether. Einstein in 1905 used the same mathematics of Lorentz but complicated more the problem by replacing the ether by a randomly moving observer. Lorentz using the fallacious ether formulated his transformation in which the mathematics could be justified under the assumption that the ether affects the length of the moving bodies. Under this confusion and since Newton in his laws did not determine the favored reference frame of the earth, Einstein in his special relativity believed that all inertial frames are equivalent. So he suggested the relative motions between two randomly moving observers. Therefore he concluded incorrectly that the observer moving with an electron can measure the same increase of mass of the stationary bodies in the laboratory.

In his wrong  special relativity Einstein used also the fallacious electric field of Maxwell in the induction law. Though Neumann (1845) showed experimentally that the induction law is consistent with the magnetic force of the Ampere law, Maxwell in order to develop his electromagnetic theory  violated the principle of relativity in the induction law (1832) by using not the magnetic force but a fallacious electric field. Of course the biggest error in the history of physics is Einstein’s derivation of the incomplete equation  E = mc2  which violates both conservation laws of mass and  energy.  In fact, I showed that  the increase of the electron mass in accelerators is du not to Einstein’s theory of relativity but to the law of the absorption of the photon energy and mass in accordance with my discovery of the Photon-matter interaction.

In 1907 Einstein influenced by the speculations of Mach  believed that Newton’s absolute motions of rotating systems are relative to the fallacious “fixed stars”. Since he was not satisfied by this strange idea of two observers he  tried to develop his general relativity by suggesting  "ether structure” or the “curvature of spacetime” under the hypothesis that the systems are equivalent. So in his chapter “General relativity” of his book “The evolution of physics (1938) Einstein wrote:

 “Take two bodies, the sun and the earth, for instance. The motion we observe is again relative. It can be described by connecting the c.s. with either the earth or the sun. From this point of view, Copernicus' great achievement lies in transferring the c.s. from the earth to the sun. But as motion is relative and any frame of reference can be used, there seems to be no reason for favouring one c.s. rather than the other”.

 In my paper EINSTEIN By L. Kaliambos I noticed that the two contradicting theories of special and general relativity cannot be related with the principle of relativity deduced from the well-established laws of Newton including the gravitational force acting at a distance confirmed by the experiments of the Quantum Entanglement.  On the other hand Einstein believed that his massless quanta of energy are treated as quanta of the fallacious Maxwell’s fields moving through a fallacious ether. Since such ideas led to complications   in 1954 Einstein expressing his frustration to his friend M. Besso wrote:"I consider it quite possible that physics cannot be based on the field concept, i.e., on continuous".

Indeed after 9 years the two American physicists French and Tessman (1963) showed experimentally the fallacy of Maxwell’s fields. Historically, Despite the detailed experiments and observations  which led to the discovery of the Galilean principle of relativity for uniform motions (1632), Descartes in his Optics (1637) asserted that light consists of pulses propagated through a medium (ether).

Since the principle of relativity was deduced from Newton’s laws,  to Newton it was clear that light consists of rectangular particles moving with respect to the source of radiation. Then, under the Michelson experiment (1887) which rejected the ether and the experiment of French and Tessman (1963) I developed the model of dipolic photons (1993) which solved  the CRISIS OF FIELDS AND RELATIVITY .

 On the other hand the orbiting electrons in atoms invalidate dramatically the special relativity because they are characterized by a mass defect which is responsible for the generation of the photon mass during the quantum jump of atomic orbitals.

 Especially Einstein in his general relativity using the gravitational accelerations  tried to replace the well-established laws of forces acting at a distance  by introducing various strange hypotheses of fields, gravitational waves etc. For justifying a reference frame he connected with  Mach’s speculations  the so called “curvature of spacetime of four dimensions by re-introducing the ether connected with the fallacious “Fixed stars”.  Much more later despite  the enormous success of the time-independent Schrodinger equation in three dimensions (1926) Einstein (1938) suggested incorrectly six dimensions. Note that his principle of equivalence invalidates dramatically the relativistic mass of his special relativity, while the bending of light predicted by Newton and confirmed by Soldner in 1801 invalidates his second postulation of special relativity.

In the “Criticism of the theory relativity-WIKIPEDIA” one sees also that Einstein’s special relativity is not compatible with his Principle of Equivalence:

 “As it was shown by Einstein, the only form of accelerated motion that cannot be described is the one due to gravitation, since special relativity is not compatible with the Equivalence principle. Einstein was also unsatisfied with the fact that inertial frames are preferred over accelerated frames. Thus over the course of several years (1908–1915), Einstein developed general relativity. This theory includes the replacement of Euclidean geometry by non-Euclidean geometry, and the resultant curvature of the path of light led Einstein (1912) to the conclusion that (like in accelerated frames) the speed of light is not constant in extended gravitational fields. Therefore, Abraham (1912) argued that Einstein had given special relativity a coup de grâce. Einstein responded that within its area of application (in areas where gravitational influences can be neglected) special relativity is still applicable with high precision, so one cannot speak of a coup de grâce at all”.