With the terms of the
Physics.
In the quantum physics is
well acquaintance the relation that exists between the energy, frequency and mass. The initial discovery for the transfer of energy at minimal quantities
of
physicist Planck (action constant h =
6,62606 x10^{34} J s) and the widening of this relation with Einstein's
work, and moreover the
famous mathematic relation that evens the mass with energy (E=Μ
c^{2}) they are constitute
an old start for the description and calculation of matter such as an electromagnetic phenomenon,
with relations of frequency f, length λ and quantity of
energy E. Even the artists presents the simple equation E=m c^{2}
in order to they remind us concisely the beginning of a big change in
our opinions about the matter and energy, the beginning of new season for
the research in the nature and in order to they symbolize the impulse of the
science and technology and the force that the knowledge gives in the human.
Really, this confirmed relation marks a new season for the scientific
research. This, however the relation is connected with certain other
relations, that are so simple and important, however were not presented by
physicists in order to they cause the same big impression… The minimal quantity h multiplied by a frequency f amounts
(equivalence) with quantity of energy (energy that bring the electromagnetic waves with the "
null " mass of the photons). The same, the mass on the square in speed of the light
amounts also with energy, that is to say:
h f = Μ c^{2} = E and Μ
= h f / c^{2}
= h /cλ = h / f λ^{2} or Μ
= Mmin
x f

With mass M we can find frequency f
and reversely. When we multiply the Planck's constant h by a minimal frequency 1Hz
results a minimal quantity of energy
Emin = h
x1Hz. The minimal
quantity h on each other frequency f gives us multiples quantity of energy Ε=hf.
When on the contrary, we divide the quantity of energy with a certain frequency, then results
the minimal quantity of energy h=E/f .
Because
the reverse of the frequency is the (periodic) time t = 1/f is also in
effect t = h/E. We do not forget, that in the microscopic
dimensions, a mass M does not exist in (stable) situation of rest and we use the measurement in kg
for reasons of comprehension and simplification. In the physics, it is known and we should take
in our consideration, the type
c= f λ is valid for the calculation of frequency and length for the electromagnetic waves
only and for the photons, that are considered without mass.
However, this aspect does not prevent to we speak with term of frequency,
when we observe phenomena of repetition and similar quantities that change multiple or submultiple.
With mathematic observation, the presence
of mass M results from square (^{2}) in the λ (in the type Μ=h/fλ^{2}
= h/cλ), provided that the all rests are constant sizes (h,
λf, c). However, the λ that gives the
mass with the particular type, it is altered. The change of length λ
amounts again with the constants (h, c). Hence some of the constants is altered or all the
constants are altered so the combination gives constants. Immediately is created the question,
what is the physical constant that is altered also how many is the limit of this change. (In the
above simple relations is need to include the potential change in the
determinative speed Vmax = c and is investigated the relation of radius r
with the quantity and concentration of energy
and with the radius of the space, where the energy is extracted).
The length λ
that we attribute in the mass of particles, we can see as the length of wave that
corresponds in an equivalent quantity of energy
E
=h f
and according to known relation
E=Mc^{2},
as if this were energy of electromagnetic wave (after in these waves is in effect the
relation
h f). The mass however is not simply a quantity
h f
but a quantity
h f/c^{2}
that divided from the speed of the light at square. When we know a frequency
f
then
we can find also some length λ,
given that λ=c/f

Observe still, that the energy
and mass in the
types are presented like reversely from each other. Their difference results from the role of
the speed c.
E = h c /λ =
M c^{2} = h f
and M
= h / c λ = Ε / c^{2} = h f / c^{2}
We observe, the first useful mathematic
relations for the description of structure of the matter and shaping of the mass. The
minimal quantity of energy Emin
= h x1Hz is connected with the minimal frequency fmin
and the biggest length λmax=c/fmin.
As long as the frequency f increases, also increases the quantity of energy h f and it
minimizes the length λ (from c/f and λ=h/M
c). In increased frequency and quantity of energy amounts more mass (h fmax / c^{2} = Mmax). In more quantity of mass
corresponds more quantity of energy and the mass is connected with higher frequency and smaller
length. Thus in the theoretical mass of unification (Mplanck
=√(h c/G)
we find a maximum high frequency
fmax,
a most quantity of energy Emax
and a minimal length λmin.
When we observe phenomena of repetition and similar quantities that become in the multiple or
submultiple quantities, then we can speak with terms of frequency and about corresponding distance or
a time delay. Logically the questions: What is the limit in the highest frequency or in the
minimal period? What conditions cause the phenomenon of rhythmical accumulation or the reduction
of the energy (of the free space) and what conditions maintaining constant ?
The initial and simple types with which
we calculate the mass here, the frequency and other relative sizes do not suffice in order to
they describe the structure of the subatomic matter. Theoretically, they can be applied
unlimitedly, without they express obligatorily the things. Theoretically, all
the quantities
of energy, frequency, length, speed and other remaining, can be changed the one in the other and
express themselves with other units. The mass of one kilo and its frequency that results
mathematically (1kg x c^{2} / h), is an example of abuse in the
mathematic logic, when we apply it in the things ignoring the explanation
of phenomena. For each quantity of mass can be calculated a frequency and an equivalent quantity of energy.
We will observe, that
the all quantities of energy, frequency, length, speed and remaining can be
changed the one in the other and finally be changed in kilograms (kg) and
express themselves with the term of " mass ". In the structure of the matter
however, is not found so much big variety of particles for the creation of mass.
On the contrary, they are become changes from which result a small number
than
the theoretically possible particles, with more located presence. Very very
little from these particles, as the electron and nucleons they are presented
most decisive, regularly and separately for the existence of the matter.
With the first questions that come in the human brain, what is the cause and
the conditions for which exist these minimal particles with these attributes
and not other particles than many possible of our theoretical
calculations. What do differentiates the energy hf comparatively
in the energy of hf
mass and in what is owed the presence of constant particles with the particular frequencies and
masses?
Does the minimal quantity and constant h
acquires energy when it is multiplied with a frequency theoretically or it constitutes a more
inferior limit of quantity in the permanent transfer in the energy of the Universe, that it
becomes permanently with the presence of " empty " free space? That is to say h = Emax
/ fmax
;
There where the wave energy is transmitted and assembled with the higher frequency does cause
increase of energy on the free space? Or is become the faster substitution in a point where the
energy is decreased? Still, we can think the case, it become the biggest decrease in the energy
when the energy is decentralised with the highest frequency. Does the mass present itself in the
points of concentration or decrease of energy? Different particles testify different rythm of
concentration or substitution of energy. In the type h = Emax
/ fmax,
in order to increases the quantity h and it gives more energy it should the frequency fmax
is decreased. In order to remains stable the quantity h when the frequency f is
decreased, should the quantity of energy in the numerator it is decreased also.
The frequency fmax
is it with which the free space permanently does transmit the energy in
order to
substitutes its losses? In this case, we observe a relation of highest frequency fmax
with the change of a minimal quantity of energy and the maintenance of a maximum quantity of
energy Emax.
In this case, if the free space does not transmit energy with the highest frequency
fmax,
then will be presented points with decreased energy, which will be so much more decreased as
long as smaller is the frequency of substitution.
It should we explain
how of many
possible particles we perceive only a minimal number (regularly and decisive for the presence of the
usual matter). Near in this theoretical problem, it should find the mathematic and completed
answer in the question also, why the mass is separated and is shared in a bigger number of
particles and it does not remains as an entire body. The sure is that,
the transfer of energy becomes in order to is not decreased the energy and
reversely, the energy is decreased, because is transmitted and substituted with some delay. And naturally, in
these changes in the energy
of the free space are involved the known phenomena of the gravity, electric charge and the " nuclear
force ". From the start, we have observed the opposition between gravitational energy and in the
presence of the mass, which is presented as repulsive force. Also, we have observed the two
opposite ways of the wave motion, the centralized of the gravity and decentralizing of the
light. The mass resemble is found in the decentralizing " in same aspect " with the light, as
an extreme electromagnetic phenomenon with waves in the highest frequencies...
Did the leading physicists make all these
questions before they ask answers in the most complicated questions, also before they seek
solutions in more complicated phenomena? Probably not, as shown by the progress of physics
