Light: a Photon Flux and Other Topics
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|Author||Peter Marquardt, Paul Wesley|
|ISBN||39800942102 Invalid ISBN|
The wave-particle problem is resolved by the mathematical isomorphism between hydrodynamics and wave theory. Quantum particles, such as photons for light, yield waves when periodically arrayed with the de Broglie wavelength and translated. Wave equations, such as the Schroedinger equation, are satisfied. Quantum particles, moving along discrete trajectories as functions of time and initial conditions yield double pinhole interference and all other such typical wave behavior. Quantization arises when particles are forced into standing waves. The electrodynamic properties of light are due to electric dipole photons. Photons propagating with fixed time delays account for the behavior of light in absolute moving media. Absolute space is seen to exist from the fixed stars and from the fact that the velocity of light c with respect to absolute space such that the observed velocity c* = c - v (the absolute velocity of the Earth) as shown by Roemer, Bradley, Sagnac, Conklin, Marinov, and others. The gravitational potential due to the fixed stars Φ0 = c2, is the same everywhere in absolute fixed space. Mass-energy, being gravitational energy mΦ0 = mc2, means the absolute kinetic energy is zero only when stationary in absolute space. The Michelson-Morley result is a classical Doppler effect in absolute space-time.
Gravitation with a finite velocity of action c yields gravity waves and resolves Seeliger's paradox. A cosmological constant β0 in a uniform universe accounts for the cosmological red shift with a Hubble constant H = β0/c, thereby resolving Olber's paradox. The 2.7?K cosmic background radiation is cosmologically red shifted starlight.
Cosmology is based upon an infinite, perpetual, steady-state universe, uniform in the large. A flux of high entropy waste radiated off into deep space forces local entropy reducing processes, such as the condensation of low entropy stars from high entropy gas and dust, or the generation of low entropy life from a high entropy environment. Such ordering occurs only as a local fluctuation of the order of 109 years in time and light years in space. An ordered death as super-massive bodies is avoided when two collide allowing mass to escape from their gravitational traps to again create disorder in gas and dust.