ENERGY TRANSFER MECHANICS
Copyright 1984 to 2004 Allen C. Goodrich
Atoms only exist as parts of the entire unjiverse.
The first law of thermodynamilcs, equation for the
universe says that the total energy ( kinetic plus
potential ) is a constant.
The universe expands from its center of mass at a
volumetric velocity that is a function of its mass energy
density and any part of the universe expands at a
volumetric velocity which is a function of its relative
mass energy density.
The photon as a part of the effective universe of the
atom that has decreased in total energy relative to its
effective universe, expands at the volumetric velocity
that is a function of its mass energy density.
The center of the effective universe of the kinetic energy
of the electron of the atom is approximately the center
of the atom just as the kinetic energy of the earth is
relative to the center of the solar system. Any change
of its kinetic and potential energy will be relative to this
center.
A change, decrease, of the kinetic energy of the
electron will be an increase of its potential energy
relative to this center. This will be the center of any
photon generated.The center of the universe will
remain fixed as the universe expands. Because the
atom exists only as a part of the entire universe,
as its atom's relative universe expands at the speed
of light, with any photon that it has generated, this
universe will eventually engulf another atom. If this
atom is sympathetic (has the same time, mass energy
density , frequency and direction ) it can absorbe
the photon of this universe,increasing in kinetic energy.
This is the method by which energy is moved
from one atom to another.
Energy moves from the rest of the universe to the atom
because energy is more stable in the high energy
density of the atom where the volumetric acceleration
rate is lower than in the rest of the unicverse.
This is the same reason the high energy gamma ray
becomes an electron and positron in the high energy
density area of the atom.
Any energy transfer between atoms must take
place between the two atoms and their two respective
universes. The total energy of the universe is a constant.
This is consistant with the first law of thermodynamics.
In an expanding universe the relationship between
kinetic and potential energies is continually
changing. The potential energy is continually
decreasing and kinetic energy is continually increasing.
Changes of total relative kinetic and potential
energies, of charges and masses, result in photon
changes , or changes in the rate of change of kinetic
and potential energies in the expanding universe.
One atom and its relative universe including any photon
change of the rate of change of the kinetic and
potential energy relative to the rest of the universe,will
also be continually changing ,expanding, with time.
Sympathy or sympathetic,is a state of similar time,
mass energy density, direction, and frequency.
Equilibrium is a state of constant total energy
( kinetic plus potential energy ).
(Frequency)^2 = f ^2 = 1/t^2 = G(M-m)/L^3.
(from the fundamental equation of the universe ).
m(2 pi L)^2/t^2 + G(m-m)m/L = M.
The effective universe of an atom (1) that has lost a
photon of its energy to its effective universe, will
expand at roughly the speed of light form its center
of mass energy.
Energy transfer can occur or take place only between
atoms and their respective universes that are in
sympathy or are sympathetic.
For energy transfer to take poace between
atoms sympathy must exist at the time of energy transfer.
To be more precise:
If an atom (1), of mass m, looses a photon of total
kinetic and potential energy to its universe, its mass
energy density will be less. and its rate of volumetric
acceleration will increase. The rest of the universe
M-m where M is the total energy of the universe,
increases in energy by the amount of the photon and
its rate of volumetric acceleration decreases relative
to masses but very little. Atom (1)'s relative universe
containing the photon may not be in sympathy with
any other atoms relative universe.
The atoms of the rest of the universe maintain roughly
an equillibrium condition, rate of volumetric
acceleration ( no change of total energy ).
The rest of the universe will be at equilibrium.
The atoms of the rest of the universe maintain an
equilibrium conhdition and expand more slowly than
their relative universe. Any other atom (2) which is
in the proper direction, frequency, and mass energy
density will asbsorb the photon energy from the
universe of atom (1) if it is in sympathy.
After a period of time Atom (1)'s relative universe
will include atom (2) and may have a mass energy
density which is in sympathy with atom (2)'s relative
universe, because
its universe has been expanding at the speed of light
and the distance between atoms (1) and (2) has not
been increasing nearly as rapidly.
The photon of energy from atom (1) will be absorbed
by atom (2), if its direction and frequency are proper
at this time. From the above equation the frequency
can be calculated.
This period of time is the same as we incorrectly
assumed it would take for light particles to travel from
atom (1) to atom (2) at the speed of light.
This is the reason for the apparent velocity of light.or
time for energy transfer, or energy transfer rate.
The photon does not travel from one atom to another,
as a particle or wave, it simply expands with the
universe to include the receiving atom which may
absorb its energy because it will provide greater
stability or mass energy density.
Its energy may be transferred from one
atom to another under sympathetic conditions
in an expanding universe.
ELECTROMAGNETIC ,PHOTON AND CHARGE EFFECTS. ARE DEFINED
IN THE FOLLOWING BOOK.-- THE UNIVERSE:--Allen C. Goodrich
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