Summary of Wave Theory
(Continued —
Page 6)
Printer-Friendly
Version
To bolster the notion of a dichotomous universe,
I have provided examples, such as the discovery of the dual
nature of calcium carbonate by Erasmus Bartholinus and Etiene
Malus's work on the polarization of light. In 1669, a Dutch
physician, Bartholinus (1625-1698), discovered that a crystal
of Iceland spar, a transparent form of calcium carbonate,
produces a double image (illustrations below-left). Apparently,
light passing through the crystal splits into two rays. This
simple observation indicates that light has two components
and is thus a fundamental facet of wave theory. Together with
other observations, it proved that light can appear in two
forms
In 1808, a French army engineer, Étienne
Louis Malus (1775 -1812), discovered polarized light. Some
optically active systems rotate the plane of polarized light
in a clockwise direction. This is viewed as a right-handed
turn; such systems are dextrorotatory. Others turn light in
a counter-clockwise direction and are levorotatory. Later
observations revealed that some plastic devices polarize light
waves in a supine position, while other polarized light waves
are upright. In whole, non-polarized light, those two forms
always appear together and it is easy to split them into two
rays (illustration below).
However, the most important contribution as
far as Wave Theory is concerned was Michael Faraday's remarkable
discovery. The latter ran a magnet through the loops of an
electric wire without actually making contact with the wire,
and vice a versa. Whenever Faraday nudged the magnet, he noticed
that the movement induced an electric current to flow through
the wire; and every time he ran an electric current through
the wire, the magnet moved. This experiment proved that electricity
and magnetism are the same virtual entity, as magnetism transforms
into electricity and vice a versa (illustration below). Subsequently,
Faraday's ideas were consolidated by James Maxwell in his
famous works on electromagnetism. Faraday's ideas thus depict
the behavior of energetic matter in every energetic formation.
Before we can begin implementing the principles
of Wave Theory within the basic premises of science, we must
grasp one final characteristic of energetic matter: All wave
formations are comprised of smaller wave formations. In fact,
every quant is a subunit of a larger quant, and is comprised
of ever smaller quants (please also see the Second
Law of Thermodynamics).
Wave Theory contends that energetic matter transmutes
to other wave formations by means of its energetic path and
phase transitions. Neighboring phase transitions are always
linked to one another, and abide by a hierarchal system in
which communication is constantly maintained in manifold ways.
Consequently, the network of loops in any wave formation,
including our universe, communicates with loops from other
wave formations.
Back to Top
Dr. Chaim Tejman, Copyright©
2004. All rights reserved.
[Index]
[Introduction]
[Book] [Wave
Formation] [Photons] [Gravitation]
[Time] [Life]
[Cancer] [Fundamental
Force] [Gender/Why Sex?]
[Sexual Reproduction]
[Schrodinger & Heisenberg]
[Creation] [Supernova]
[Dark Matter & Astronomy]
[Speed of Light] [Cloud
Formations] [Natural Disasters]
[Global Warming] [Thermodynamics]
[Backward Time] [Quantum
Mechanics] [Compton Effect]
[Equations] [Predictions]
[Academic Correspondences] [Contact]
[Links] [Mysteries] |
