Re: Photon or Wave Transmission of Light?

On Jul 17, 12:16 am, Peri of Pera <rie...@xxxxxxxxxxx> wrote:
Photon or Wave Transmission of Light?

Photons are discrete energy points on electromagnetic waves that are
carried through and by a medium that permeates space and gaseous,
liquid and solid matter. The medium is the ether, an elastic solid.
Photons cannot exist without carrier waves. Waves cannot exist without
a medium. Fresnel and Arago demonstrated that these waves are
transverse waves vibrating at right angles to each other.

The wave property of the wave-photon duality accounts for:
Light colour (= wavelength)
Interference (Young’s double slit experiment)
Free intersection of light from different sources
Partial transmission and reflection at the boundary between different
materials (air, water, glass etc)
Polarisation
Distance decrease of illumination (Inverse Square Law)
Reflection
Refraction (Ratio of speed of light in air/water of 1.33 by Michelson
1883 agrees with refractive index of water of 1.33)
Dispersion (due to colour of light ie its wavelength, seen in
rainbows)
Diffraction (Grimaldi 1665, Huygens: Waves travel around corners of
objects)
Doppler Effect (Observed wave FREQUENCY depends on motion of source
and observer)
Radio wave transmission by amplitude and frequency modulation
Photon energy (E=hc/wavelength)

The photon property of the wave-photon duality accounts for:
Aberration
Propagation of light in straight lines
Sharp shadows
Reflection (if elastic collision)
Distance decrease of illumination (Inverse Square Law)
Light pressure
Heating due to light absorption
Photoelectric effect

The ether was abolished by the Michelson-Morley Experiment (MMX) in
1887. However, MMX and similar experiments, while correctly showing
null results, are nevertheless based on incorrect assumptions and
premises. It is necessary to re-examine MMX and to liberate science
from the bizarre theories of the last 115 years.

Peter Riedt

<<Now, does not the prize to Einstein imply
that the Academy recognised the particle
nature of light? The Nobel Committee says
that Einstein had found that the energy exchange
between matter and ether occurs by atoms emitting
or absorbing a quantum of energy,hv .

As a consequence of the new concept of light quanta
(in modern terminology photons) Einstein proposed the
law that an electron emitted from a substance by
monochromatic light with the frequency has to have
a maximum energy of E=hv-p, where p is the energy needed to
remove the electron from the substance. Robert Andrews
Millikan carried out a series of measurements over a
period of 10 years, finally confirming the validity of this
law in 1916 with great accuracy. Millikan had, however,
found the idea of light quanta to be unfamiliar and strange.

The Nobel Committee avoids committing itself to the
particle concept. Light-quanta or with modern terminology,
photons, were explicitly mentioned in the reports on
which the prize decision rested only in connection with
emission and absorption processes. The Committee says
that the most important application of Einstein's photoelectric
law and also its most convincing confirmation has come from
the use Bohr made of it in his theory of atoms, which explains
a vast amount of spectroscopic data. >>
http://nobelprize.org/physics/articles/ekspong/index.html

See also:
http://en.wikipedia.org/wiki/Emitter_theory

Welcome to the 21st century.

Time-independent Maxwell equations
Time-dependent Maxwell's equations
Relativity and electromagnetism
http://farside.ph.utexas.edu/teaching/em/lectures/lectures.html

Maxwell's equations in classic electrodynamics
(classic field theory)_
a) Maxwell equations (no movement),
b) Maxwell equations (with moved bodies)
http://www.wolfram-stanek.de/maxwell_equations.htm#maxwell_classic_extended

Sue...


.

Relevant Pages

  • Re: Why relativists dont understand Einsteins 1905 mathematics.
    ... <It cannot mutate into waves for part of the journey because by their ... The unimpeachable experimental evidence for this is that the intensity of light decreases with distance from its source, but the energy of its individual ... The waves of Maxwell's wave in aether theory ... No matter how faint the light, something has sufficient energy in one spot to displace an electron. ...
    (sci.physics.relativity)
  • Re: Ken, need help with this
    ... > 2) The First Law of Thermodynamics concerning conservation of energy ... > directly proportional to its mass and momentum, ... Can we then go the final step and conclude that photons are the ... > pass energy on through waves. ...
    (sci.physics.relativity)
  • Re: Ken, need help with this
    ... >> 2) The First Law of Thermodynamics concerning conservation of energy ... You just concluded, by your own analysis, that photons ... but the wad has both momemtum and mass equivalence. ... >> pass energy on through waves. ...
    (sci.physics.relativity)
  • Re: Classical wave theory and tired light
    ... that the exchange of energy between matter and the radiation field is ... electrons on a target and that you observe that an electron is freed ... Because localized least action travel of all elementary EM events is ... "Travels as discrete quanta" is typical of "photons as billiard ...
    (sci.physics)
  • Re: Ken, need help with this
    ... > 2) The First Law of Thermodynamics concerning conservation of energy ... practically *define* photons as packets of light energy). ... > pass energy on through waves. ... What is warped by gravity in the vicinity of a gravitational mass, ...
    (sci.physics.relativity)