Challenging Modern Physics: Questioning Einstein's Relativity TheoriesUniversal-Publishers, 2005 - 320 pagina's Newton's Laws held for 300 years until Einstein developed the 'special theory of relativity' in 1905. Experiments done since then show anomalies in that theory. This book starts with a description of the special theory of relativity. It is shown that Einstein was not the first to derive the famous equation E = mc2, which has become synonymous with his name. Next, experimental evidence that cannot be explained by special relativity is given. In the light of this evidence, the two basic postulates of the special theory of relativity on the behaviour of light are shown to be untenable. A new theory (universal relativity) is developed, which conforms to the experimental evidence. The movement of a conductor near a pole of a magnet and the movement of that pole near the conductor does not always give the same result. It has been claimed that this contradicts relativity theory. Experiments described in this book show that it is not special relativity but another basic law of physics that is contradicted - Faraday's Law. The Big Bang theory of the beginning of the universe is questioned and an alternative proposed. The source of much of the mysterious missing 'dark matter' that has been sought for decades by astronomers is located. An explanation of the shapes of some galaxies is proffered. This book presents an alternative to Einstein's special theory of relativity, solves many problems left unanswered by special relativity, gives a better fit to many phenomena and experimental data and is more philosophically appealing. It is recommended to all people interested in fundamental issues of physics and cosmology. Professor Andre Assis, Brazil The book treats its subject properly, not just as an impersonal set of equations, but rather as a developing saga full of human triumph and failure. One learns from both experimental results and simple logical argument that all is not well with modern physics. Dr. Neal Graneau, Oxford University, U.K. Irish engineer solves the dark secrets of space. Sunday Times, U.K. Einstein got relativity theory wrong. Bangkok Post, Thailand |
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Resultaten 1-5 van 74
Pagina 1
... movement of a conductor near the stationary pole of a magnet and the movement of that pole near a stationary conductor did not always give the same result. This result was claimed to be in contradiction to relativity theory, which ...
... movement of a conductor near the stationary pole of a magnet and the movement of that pole near a stationary conductor did not always give the same result. This result was claimed to be in contradiction to relativity theory, which ...
Pagina 4
... movement, which corresponds to the swimmer going with and against the flow in Michelson's explanation to his children, is in the direction of v. The ether flow in relation to the earth is therefore v to the left. Figure 1: The Michelson ...
... movement, which corresponds to the swimmer going with and against the flow in Michelson's explanation to his children, is in the direction of v. The ether flow in relation to the earth is therefore v to the left. Figure 1: The Michelson ...
Pagina 5
... movement of the earth through the supposed ether. However, to Michelson and Morley's great surprise, no difference was detected. While the experiment is always referred to as the Michelson and Morley experiment, Michelson alone had done ...
... movement of the earth through the supposed ether. However, to Michelson and Morley's great surprise, no difference was detected. While the experiment is always referred to as the Michelson and Morley experiment, Michelson alone had done ...
Pagina 6
... movement through the ether was exactly balanced by some other movement of the solar system as a whole. Another was that the ether was dragged along by the earth when near the earth's surface. The Irish scientist Stokes had proposed in ...
... movement through the ether was exactly balanced by some other movement of the solar system as a whole. Another was that the ether was dragged along by the earth when near the earth's surface. The Irish scientist Stokes had proposed in ...
Pagina 7
... is a well-known phenomenon. Additionally, the movement of the air through which the sound pulse moves has to be added to the speed of the sound in relation to the observer. It is immediately obvious that this second proposal by Einstein 7.
... is a well-known phenomenon. Additionally, the movement of the air through which the sound pulse moves has to be added to the speed of the sound in relation to the observer. It is immediately obvious that this second proposal by Einstein 7.
Veelvoorkomende woorden en zinsdelen
aboard acceleration aeroplane alteration applied assumed atomic clocks axis beam behaviour of light calculated CCIR centre circuit conclusions conductor confirm correct dark matter derived difference Dingle discussed distance Doppler effect drift rate Dufour and Prunier earlier earth eastward test Einstein electromagnetic signal energy equation ether experiment experimental explain fact Faraday figure fringe shift galaxy galvanometer Hafele and Keating km/s laboratory later light signal light travels light-seconds light-years Lorentz magnet mass mathematics measured Michelson and Gale Michelson and Morley million l-y million years ago Møller movement moving clock object observer opposing directions orbital paper path photon Phys physics polarised position postulate Pretto problem proposed published redshift reference relative motion relativistic relativity theory respect Sagnac effect Sagnac test says shown shows solenoid space Special Relativity speed of light spinning disc stars synchronisation test results theory of relativity twin paradox universe velocity Vigier voltage westward
Populaire passages
Pagina ii - There was a young lady named Bright, Whose speed was far faster than light; She set out one day In a relative way And returned on the previous night.
Pagina 20 - The principle of relativity, according to which the laws of physical phenomena should he the same, whether for an observer fixed, or for an observer carried along in a uniform movement of translation; so that we have not and could not have any means of discerning whether or not we are carried along in such a motion.
Pagina 75 - Principle of Relativity') to the status of a postulate, and also introduce another postulate which is only apparently irreconcilable with the former, namely, that light is always propagated in empty space with a definite velocity c which is independent of the state of motion of the emitting body.
Pagina 182 - The observable phenomenon here depends only on the relative motion of the conductor and the magnet, whereas the customary view draws a sharp distinction between the two cases in which either the one or the other of these bodies is in motion.
Pagina 260 - The bold structure of its theories rises, as it were above a swamp. It is like a building erected on piles. The piles are driven down from above into the swamp, but not down to any natural or 'given' base; and if we stop driving the piles deeper, it is not because we have reached firm ground.
Pagina 10 - A > B on the travelling train. Just when the flashes of lightning occur, this point M' naturally coincides with the point M, but it moves towards the right in the diagram with the velocity v of the train. If an observer sitting in the position M' in the train did not possess this velocity, then he would remain permanently at M, and the light rays emitted by the flashes of lightning A and B would reach him simultaneously, ie they would meet just where he is situated. Now in reality (considered with...
Pagina 182 - When lines of force are spoken of as crossing a conducting circuit, it must be considered as effected by the translation of a magnet. No mere rotation of a bar magnet on its axis produces any inductive effect on circuits exterior to it.
Pagina 10 - M' in the train did not possess this velocity, then he would remain permanently at M, and the light rays emitted by the flashes of lightning A and B would reach him simultaneously, ie they would meet just where he is situated. Now in reality (considered with reference to the railway embankment) he is hastening towards the beam of light coming from B, whilst he is riding on ahead of the beam of light coming from A. Hence the observer will see the beam of light emitted from B earlier than he will see...