Vibrating Rays Theory arXiv:1407.5001v8
... The present work is aimed to explain why we started to consider Vibrating Rays Theory (VRT) as a viable representation of nature, and to elaborate some of its consequences. We first note that we have kept the probably unsuitable term “vibrating rays” as homage to its insightful introducer: Michael F ...
... The present work is aimed to explain why we started to consider Vibrating Rays Theory (VRT) as a viable representation of nature, and to elaborate some of its consequences. We first note that we have kept the probably unsuitable term “vibrating rays” as homage to its insightful introducer: Michael F ...
The Cause of Coriolis Force
... working together in tandem. A planet’s gravity will entrain an extended region of the electric sea with it in its orbital path. This region, known as the gravitosphere will slide against the gravitosphere of the other planet. Centrifugal pressure will arise as a result of transverse shear stress in ...
... working together in tandem. A planet’s gravity will entrain an extended region of the electric sea with it in its orbital path. This region, known as the gravitosphere will slide against the gravitosphere of the other planet. Centrifugal pressure will arise as a result of transverse shear stress in ...
Syllabus
... wave move back in forth in a compression and stretching movement that is in the same direction that the wave travels. If we consider a wave moving through a medium that takes up all space, transverse waves need a solid to travel through. Gases and liquids can support only longitudinal waves such as ...
... wave move back in forth in a compression and stretching movement that is in the same direction that the wave travels. If we consider a wave moving through a medium that takes up all space, transverse waves need a solid to travel through. Gases and liquids can support only longitudinal waves such as ...
On the Experimental Proofs of Relativistic Length Contraction and
... set in translational motion [9,10], Thus, according to Einstein, not only clocks run slow, but time itself is "dilated" in systems that move with respect to the system considered to be stationary (laboratory). The idea of the slowing down of moving clocks as a strictly kinematic effect was unaccepta ...
... set in translational motion [9,10], Thus, according to Einstein, not only clocks run slow, but time itself is "dilated" in systems that move with respect to the system considered to be stationary (laboratory). The idea of the slowing down of moving clocks as a strictly kinematic effect was unaccepta ...
Speed of light - should be measured once again
... Foucault was obtained by determining the angle through which a revolving mirror turned, while the light reflected from it went and returned along a measured course. No use whatever was made of electricity and magnetism.” Maxwell’s constant b being the only parameter controlling the behavior of pure ...
... Foucault was obtained by determining the angle through which a revolving mirror turned, while the light reflected from it went and returned along a measured course. No use whatever was made of electricity and magnetism.” Maxwell’s constant b being the only parameter controlling the behavior of pure ...
Maxwell`s Sea of Molecular Vortices
... around it is charged with fine-grained centrifugal aether pressure. A paramagnetic material is not charged, but it allows magnetic field lines to permeate through it. A diamagnetic material is more resistant to magnetic field lines permeating through it. An electrically charged body corresponds to a ...
... around it is charged with fine-grained centrifugal aether pressure. A paramagnetic material is not charged, but it allows magnetic field lines to permeate through it. A diamagnetic material is more resistant to magnetic field lines permeating through it. An electrically charged body corresponds to a ...
The Double Helix Theory of the Magnetic Field
... John Bernoulli was working on the refraction of light. In 1861, James Clerk-Maxwell attempted to explain the magnetic field in terms of a sea of such excessively small whirlpools. In his paper “On Physical Lines of Force” [2], he used such a concept to explain magnetism on the basis that these vorti ...
... John Bernoulli was working on the refraction of light. In 1861, James Clerk-Maxwell attempted to explain the magnetic field in terms of a sea of such excessively small whirlpools. In his paper “On Physical Lines of Force” [2], he used such a concept to explain magnetism on the basis that these vorti ...
Moving from Newton to Einstein
... of the earth in its orbit relative to the ether. Figure 2 shows the experiment. Light from a source is split by a half silvered mirror, B . Half the light is reflected back from a mirror, C , and the other half from E and from the back side of B to recombine with the light from C. The distances to e ...
... of the earth in its orbit relative to the ether. Figure 2 shows the experiment. Light from a source is split by a half silvered mirror, B . Half the light is reflected back from a mirror, C , and the other half from E and from the back side of B to recombine with the light from C. The distances to e ...
physics space notes File
... The launch begins with the rocket producing thrust by burning fuel and expelling the resulting hot gases out one end. These hot gases have a momentum in one direction, and since the total momentum of the rocket-fuel system is zero, the rocket itself has an equal momentum in the opposite direction. T ...
... The launch begins with the rocket producing thrust by burning fuel and expelling the resulting hot gases out one end. These hot gases have a momentum in one direction, and since the total momentum of the rocket-fuel system is zero, the rocket itself has an equal momentum in the opposite direction. T ...
The Einstein – Lorentz Dispute Revisited
... [If one attempts such a Newtonian transform on Maxwell's equations and the speed of light wrong results are obtained because of non-linearity. In addition, one cannot subtract a velocity difference between two systems from the speed of light, c, because c is an absolute constant given by c2= 1/ε·μ a ...
... [If one attempts such a Newtonian transform on Maxwell's equations and the speed of light wrong results are obtained because of non-linearity. In addition, one cannot subtract a velocity difference between two systems from the speed of light, c, because c is an absolute constant given by c2= 1/ε·μ a ...
The Theory of Anti-Relativity, Chapter 1
... Finally, it has been disclosed by insiders within the space program, N.A.S.A., of a “certain complication”. It was found that when far outside the Earth’s field of influence the stars and sun are NOT VISIBLE! However, the Earth and the Moon are plainly visible. No direct light in outer space, only t ...
... Finally, it has been disclosed by insiders within the space program, N.A.S.A., of a “certain complication”. It was found that when far outside the Earth’s field of influence the stars and sun are NOT VISIBLE! However, the Earth and the Moon are plainly visible. No direct light in outer space, only t ...
JKDoranPaper - FSU High Energy Physics
... arrives at the planet, she turns around and returns to Earth. Both sisters have learned about special relativity and know about time dilation, so they each think that the other’s clock runs slower relative to their own because they each “see” the other’s clock in motion relative to their own (Krane) ...
... arrives at the planet, she turns around and returns to Earth. Both sisters have learned about special relativity and know about time dilation, so they each think that the other’s clock runs slower relative to their own because they each “see” the other’s clock in motion relative to their own (Krane) ...
Relativistic Effects - The Physics of Bruce Harvey
... Maxwell had proved that the laws of electricity and magnetism predict the existence of electromagnetic waves which travel at the speed of light. But waves need something to wave and Maxwell called it the æther making use of an old Greek term. Sound travels through air and the speed of sound is affec ...
... Maxwell had proved that the laws of electricity and magnetism predict the existence of electromagnetic waves which travel at the speed of light. But waves need something to wave and Maxwell called it the æther making use of an old Greek term. Sound travels through air and the speed of sound is affec ...
The Michelson Interferometer
... M2) which we are observing from the position O. The field of view, then, seen by looking at mirror M1 from position O will be made up of a series of alternately bright and dark fringes, nearly straight and parallel, similar to those produced by interference from a simple wedge. Such fringes are refe ...
... M2) which we are observing from the position O. The field of view, then, seen by looking at mirror M1 from position O will be made up of a series of alternately bright and dark fringes, nearly straight and parallel, similar to those produced by interference from a simple wedge. Such fringes are refe ...
Relativity Presentation
... Einstein thought the principle of relativity was so fundamental it should apply in all areas of physics – including electromagnetism. He also thought Maxwell’s equations were so elegant they, and their prediction about the speed of electromagnetic waves, had to be true. But how could these two great ...
... Einstein thought the principle of relativity was so fundamental it should apply in all areas of physics – including electromagnetism. He also thought Maxwell’s equations were so elegant they, and their prediction about the speed of electromagnetic waves, had to be true. But how could these two great ...
Space #3
... a planet, so that it doesn’t return to that planet under the influence of their mutual gravitational attraction o It is the velocity which will result in zero mechanical energy at an infinite distance away o Depends on mass of the planet and distance from centre of the planet (radius), as G is a con ...
... a planet, so that it doesn’t return to that planet under the influence of their mutual gravitational attraction o It is the velocity which will result in zero mechanical energy at an infinite distance away o Depends on mass of the planet and distance from centre of the planet (radius), as G is a con ...
Slide 1
... Einstein thought the principle of relativity was so fundamental it should apply in all areas of physics – including electromagnetism He also thought Maxwell’s equations were so elegant they, and their prediction about the speed of electromagnetic waves, had to be true. But how could these two great ...
... Einstein thought the principle of relativity was so fundamental it should apply in all areas of physics – including electromagnetism He also thought Maxwell’s equations were so elegant they, and their prediction about the speed of electromagnetic waves, had to be true. But how could these two great ...
ppt
... Interpretation of bar formation with specific reference to NGC 1300. The polar infall streams (see inset) are here supposed to have been deflected and misaligned by the gravitation of other galaxies in the cluster (so will only happen inside clusters). This sets up a couple which forms a rotating ba ...
... Interpretation of bar formation with specific reference to NGC 1300. The polar infall streams (see inset) are here supposed to have been deflected and misaligned by the gravitation of other galaxies in the cluster (so will only happen inside clusters). This sets up a couple which forms a rotating ba ...
SR 1 1 Special relativity, 1 Newton and Maxwell We have seen that
... clear answer: sound is carried by a medium, such as the air in a room; observers at rest with respect to the air measure the “book value” of the speed of sound, while observers moving relative to the air measure other values. When Maxwell published his c -result in the 1860s, it ...
... clear answer: sound is carried by a medium, such as the air in a room; observers at rest with respect to the air measure the “book value” of the speed of sound, while observers moving relative to the air measure other values. When Maxwell published his c -result in the 1860s, it ...
Special Relativity
... 1) What is the medium for electromagnetic waves? 2) In what frame of reference is the speed of light 3.00 x 108 m/s? ...
... 1) What is the medium for electromagnetic waves? 2) In what frame of reference is the speed of light 3.00 x 108 m/s? ...
Title: Real Fringes in the Michelson Interferometer
... Abstract: Real fringes may be observed through the Michelson Interferometer. The use of fringes is important to understand since they may be used to measure wavelength, very fine measurements, and the study of spectral lines. Although virtual fringes are used for most measurements, it is important ...
... Abstract: Real fringes may be observed through the Michelson Interferometer. The use of fringes is important to understand since they may be used to measure wavelength, very fine measurements, and the study of spectral lines. Although virtual fringes are used for most measurements, it is important ...
The Speed of Light - HRSBSTAFF Home Page
... assumed that light needed a medium to propagate through This medium was called the “ luminiferous ether” and Michelson and Morely set out to test for the presence of this ether They used an interferometer, which is a device designed to measure wavelengths of light ...
... assumed that light needed a medium to propagate through This medium was called the “ luminiferous ether” and Michelson and Morely set out to test for the presence of this ether They used an interferometer, which is a device designed to measure wavelengths of light ...
Michelson–Morley experiment
The Michelson–Morley experiment was performed over the spring and summer of 1887 by Albert A. Michelson and Edward W. Morley at what is now Case Western Reserve University in Cleveland, Ohio, and published in November of the same year. It compared the speed of light in perpendicular directions, in an attempt to detect the relative motion of matter through the stationary luminiferous aether (""aether wind""). The negative results are generally considered to be the first strong evidence against the then-prevalent aether theory, and initiated a line of research that eventually led to special relativity, in which the stationary aether concept has no role. The experiment has been referred to as ""the moving-off point for the theoretical aspects of the Second Scientific Revolution"".Michelson–Morley type experiments have been repeated many times with steadily increasing sensitivity. These include experiments from 1902 to 1905, and a series of experiments in the 1920s. In addition, recent resonator experiments have confirmed the absence of any aether wind at the 10−17 level. Together with the Ives–Stilwell and Kennedy–Thorndike experiments, the Michelson–Morley experiment forms one of the fundamental tests of special relativity theory.