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 Double Helix Theory of the Magnetic Field
... used such a concept to explain magnetism on the basis that these vortices are aligned solenoidally with their rotation axes tracing out magnetic lines of force. He explained magnetic attraction between unlike poles in terms of a tension existing along the lines of force that connect directly between ...
... used such a concept to explain magnetism on the basis that these vortices are aligned solenoidally with their rotation axes tracing out magnetic lines of force. He explained magnetic attraction between unlike poles in terms of a tension existing along the lines of force that connect directly between ...
Maxwell`s Sea of Molecular Vortices
... pressurized aether when the equilibrium is disturbed. Taking gravitational charge as a mild negative charge which we use as our standard of neutrality, then two gravitationally charged bodies will mutually attract each other. However, when the aether inflow rate increases so as to induce sufficient ...
... pressurized aether when the equilibrium is disturbed. Taking gravitational charge as a mild negative charge which we use as our standard of neutrality, then two gravitationally charged bodies will mutually attract each other. However, when the aether inflow rate increases so as to induce sufficient ...
The Theory of Anti-Relativity, Chapter 1
... transform between inductance and capacitance. See The International Tesla Society lecture on the “Hysteresis of the Aether” by E. P. Dollard. Here again one over c squared is only a proportionality factor, not a velocity. Finally, it has been disclosed by insiders within the space program, N.A.S.A. ...
... transform between inductance and capacitance. See The International Tesla Society lecture on the “Hysteresis of the Aether” by E. P. Dollard. Here again one over c squared is only a proportionality factor, not a velocity. Finally, it has been disclosed by insiders within the space program, N.A.S.A. ...
The Four Kinds of Electric Charge
... flow unless they possess a strong negative charge. If however the circuit is broken and the electron-positron dipoles are not free to undergo a net translational flow inside the electric wire, the aether flow will cause the electrons (strong sinks) to want to go in one direction, and the positrons ...
... flow unless they possess a strong negative charge. If however the circuit is broken and the electron-positron dipoles are not free to undergo a net translational flow inside the electric wire, the aether flow will cause the electrons (strong sinks) to want to go in one direction, and the positrons ...
Derivation of the Maxwell`s Equations Based on a Continuum
... and elasticity helped to inspire James Clark Maxwell established a mechanical model of electrical phenomena [17]. Strongly impressed by Faraday’s theory of lines of forces, Maxwell compared the Faraday’s lines of forces with the lines of flow of a fluid. In 1861, in order to obtain a mechanical inte ...
... and elasticity helped to inspire James Clark Maxwell established a mechanical model of electrical phenomena [17]. Strongly impressed by Faraday’s theory of lines of forces, Maxwell compared the Faraday’s lines of forces with the lines of flow of a fluid. In 1861, in order to obtain a mechanical inte ...
ppt
... 1. Embracing the function of transverse e.m. (TEM) waves as perfect messengers (hence the Lorentz transformations) but denying the presence of a Maxwell’s equations aether, essential for their existence. (It was like saying “I want the ripples but not the water”) This enabled Einstein to avoid any p ...
... 1. Embracing the function of transverse e.m. (TEM) waves as perfect messengers (hence the Lorentz transformations) but denying the presence of a Maxwell’s equations aether, essential for their existence. (It was like saying “I want the ripples but not the water”) This enabled Einstein to avoid any p ...
Aether causes anti-Friction in the Planetary Orbits
... dipoles to linearly polarize. The electron-positron dipoles can be viewed as tiny satchels of aether that fill up to a greater volume under aether pressure. An irrotational flow of aether will cause a linear stretching of these dipoles, whereas a rotational vortex flow of aether will have a tangenti ...
... dipoles to linearly polarize. The electron-positron dipoles can be viewed as tiny satchels of aether that fill up to a greater volume under aether pressure. An irrotational flow of aether will cause a linear stretching of these dipoles, whereas a rotational vortex flow of aether will have a tangenti ...
Luminiferous aether
In the late 19th century, luminiferous aether, æther or ether, meaning light-bearing aether, was the postulated medium for the propagation of light. It was invoked to explain the ability of the apparently wave-based light to propagate through empty space, something that waves should not be able to do.The concept was the topic of considerable debate throughout its history, as it required the existence of an invisible and infinite material with no interaction with physical objects. As the nature of light was explored, especially in the 19th century, the physical qualities required of the aether became increasingly contradictory. By the late 1800s, the existence of the aether was being questioned, although there was no physical theory to replace it.The negative outcome of the Michelson–Morley experiment (MMX) suggested that the aether was non-existent. This led to considerable theoretical work to explain the propagation of light without an aether. A major breakthrough was the theory of relativity, which could explain why the MMX failed to see aether, but was more broadly interpreted to suggest that it wasn't needed. MMX, along with the blackbody radiator and photoelectric effect, were key experiments in the development of modern physics, which includes both relativity and quantum theory, the latter of which explains the apparent wave-like nature of light.