maandag 4 juni 2012

Nobel prize physics

to the attention of Kunliga Wetenskapsakademien,
 
Recently the Erasmuspremium of 2 million euros was awarded to a professor at the Universiteit van Amsterdam for his theory on gravitation and to another at Nijmegen University who does research on black holes. However black holes do not exist according Vasily Yanchilin in his book "The Quantum Theory of Gravitation" (2003). He analyses that photons coming from Mercurius and passing the sun will take a route in agreement with the principle of least action, taking as big steps (oscillations with low frequency) as possible and a minimum number of these. Everybody agrees that near mass the unit of length shrinks and distances become bigger. Although following a straight course in own geometry the photon appears to a distant observer travelling in a parabolic way, which implies that farther away from the mass of the sun the second is slower. Einstein thought that time retards near mass but then a hyperbolic path would be observed.
On page 146 of his book Yanchilin writes that the general theory of relativty fails to explain smaller size of atoms due to that reduction of the unit of length near mass and faster rotation of the electrons, which indicates faster second. He adds that c has dimension m/s which in that theory means also decrease of the Planck, while this contradicts that "frequencies of radiation of atoms are inversely proportional to the value of Planck's constant raised to the third power".
Moreover the redshift of sunlight is explained in the book anew, as something is wrong when this is ascribed to overcoming gravitational attraction and slower second at the sun while not the sum of both is measured.
Further Pioneer 11 has no mysteries for the author.
Every particle has wave properties and Yanchilin presents as new formula for an interval ds(quadr) = c(0)(quadr).dt(0)(quadr)/(1 + 2GM/rc(0)(quadr)) - (1 + 2GM/rc(0)(quadr)).dl(0)(quadr), which excludes black holes (not big masses or giant concentrations like at the Big Bang where processes developped very rapidly).
He is the first to offer a qualitative explanation of gravitation, based on the hypothesis that the Heisenberg uncertainty lessens near mass: In the half of a particle at some distance of another mass there will be less quantummechanical transitions to the farthest half than from the farthest half to the nearest one. As a result the particle moves in the direction of that external mass. May be one could add that inert mass is not felt in absence of other masses because then there is balance of such processes.
Yanchilin proposes experiments with atomic clocks at different altitudes, but movements inside the core of atoms somehow disturb the electrons around used for measuring. Another suggested experiment in his book concerns a split beam of which one component is retarded. I think perhaps  a laserbeam can be split and led through prisms at different heights, where refraction indexes differ because of slower or faster second. With trigonometry in future measurements might become possible at sufficient distances. In the general theory of relativity bigger refraction is ascribed to slower speed of electromagnetic propagation, This necessitates different lengths of the routes the components pass and comparing their phases like Yanchilin describes.
Reflect on the words electro, magnetic and waves. Einstein took constancey of the speed of light only as a temporary hypothesis when quantummechanics was not yet available.
At the Amsterdam University Yanchilin's book is banned to a place not easily reachable by students. Obviously to promote own theory of far lesser quality if any at all and grab that Erasmus premium.
The Nobel prize physics was awarded for research on accellerated expansion of the universe. Yanchilin however maintains that this is not correct; he assumes a relationship between the speed of light and the total potential of the mass of the universe. Due to expansion this potential decreases and equally the speed of light to become zero at the "edge" of the universe, where "everything looses speed and direction, becomes undetermined". If correct the standard supernovae Ia has to be revised (see mathematical work out in the book) and accellerated expansion disappears, as well negative energy, inflation, the cosmological constant and those black holes. Thus that Nobel prize was awarded wrongly and has to be taken back.
The special theory of relativity stays valid if understood thus that the speed of light is independent of movements of observers. Namely it is related in the new theory to the potential of the total mass of the universe, which at a certain place and a certain time is the same in all directions. So the true speed of light decreases every year, every moment, but more in summer when Earth is nearest to the sun. Because the latter adds to the local potential in winter c becomes about 10 cm larger.
Yanchilin claims that the general theory of relativity is wrong also as it does not accept that the gravitational field of the universe creates space-time (page 80). However when factors vary little it gives a usable outcome, not different from the new theory because (see page 157) measurements ain't sufficiently precise. In the dark Middle Ages unwelcome books, attacking vested authority, were burned. Wikipedia boycotts the russian scientist and many young students are unaware of the broadening of horizon that Vasily Yanchilin provides.
 



Geen opmerkingen: