THE CONTOURS OF THE NEW PHYSICS

The main laws of physics of a microcosm can be interpreted within
the framework of the universal concept motion particles and them
interaction among themselves as mechanical objects.

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Such theory can be named as UNIVERSAL KINEMATICS THEORY.

Within the framework of this theory, the following results are
obtained:

1. Bases of the KINEMATICS RELATIVISTIC THEORY is created, in
this theory the phenomena are considered both on wave, and at a
corpuscular level.

2. Steady systems of sub nuclear particles considered as provide for
the account a mechanical influence on system of particles of the field
coming from outside system predominantly. Such processes have been
uniting of particles in systems and systems in ensemble. In the
integrated
form them can consider as UNIVERSAL DISCRETE INTERACTION.

3. It is permanent going diffusion of borders of all systems explains
the expansion of ours Universe objects.

4. A CHARGES CAN be INTERPRETED FROM THE POINT OF VIEW
OF MECHANICS. In particular, the electric charge, as shows the
analysis, represents the LATENT KINEMATICS PARAMETER. His
mechanical value is revere to parameters of MAXIMUM OF PLANKS
FUNCTION OF the RELIC RADIATION.

5. The photon as a wave - corpuscle having zero mass, can be
presented. At standard physical parameters, the mass of the
STANDARD PARTICLE formed from waves is calculated. It mass
is coincides on size with ATOMIC MASS.

6. A opportunities for new interpretation and the detail ANALYSIS
FROM POINT of view of MECHANICS of the phenomena which are
described with quantum mechanics there are.


1. THE DIFFUSION AND THE GRAVITY

At the moment t = 0 density of substance in our Universe was
greatest possible. Fluctuations of particles were possible only
on one-step. In this point on a time scale the Big Explosion was.

As a result of gradual exponential expansion of our Universe
(through 802 million years) fundamental constants came in
harmonious system. In this moment there was possible a birth
of atoms. It was the moment of the Beginning of Times.

By consideration of parameters of expansion of our Universe
as diffusions of borders of all systems, it is found, that
INTENSITY OF DIFFUSION AND INTENSITY OF GRAVITY COINCIDE.
The gravitational constant on the basis of parameters of diffusion
to within 1 % calculated.

1.1. The sytems of units in which the inertial mass has dimension
T ^2L^– 1, that is, inverse dimensions of acceleration one, we shall
name «dynamic». It is obvious, that in these systems the standard
of energy can be presented as W11 = KR11, where K –
dimensionless factor, R11 – the standard of length. The momentum
has dimension T, the angular momentum – TL, force has zero
dimension here. We shall use further system of units DS1 (the
Dynamic system of units that units of length and time of system
of SI used). In DS1 W11 = R11 = 1m, the standard of force
F11 = W11/R11 = 1, the standard of a pulse is equal 1s, and
standard W11 is equivalent 1J.
1.2. We shall enter of parameter of field mass of a particle, which
characterizes activity of a particle, its ability to overcome forces of

inertia. According to physical sense of this parameter we shall
assume, that it has dimension L^2T^–1. Clearly, that the
gravitational mass has the same dimension here. As the standard
of field mass it is meaningful to use a standard factor of diffusion
S11^2 = 1m^2 s^ – 1 [1].

1.3. Efficiency of use of system DS1 is caused by that fact, that the
standard of energy is determined in experiment where the trial
body is passed in the gravitational field of the Earth the vertical
distance equal 1m at intensity of a field 1ms^ – 2. Here the body
receives of energy of 9.80665 J under force 9.80665 N:

m11*R11*M*G1/R ^2 = mj11*u11^2 = W11 (1)

Here mj11 and m11 = 1kg, – inertial and gravitational mass of a
trial body accordingly, M – gravitational mass of the Earth, R –
the radius of Earth, G = 6.67259(85) *10^ –11 Nm^2kg ^– 2–
the gravitational constant, G1 = G/9.80665, u11 – the standard
of speed.
The formula that maps of interaction of two dot standard mass,
divided in the distance r = R11 has of a form:

(d^ 2r/dt^ 2)11 = (m11^2/mj11)G1/R11^2 (2)

The value of parameter (d^ 2r/dt^ 2)11 at the standard
circumstances is characterized of Intensity of gravity as fact.
1.4. We will consider two particle (the vacuum system) when
one of them is massive, and another of essentially easier. We
shall assume, that the attraction of a considered particle to
the center occurs as regular updating of trajectory of particle
in some points due to influence of particles of the field
coming from the outside of system. This updating of movement
of particle on trajectory of broken line provides. Clearly, that
the smooth curve at rather high intensity of a field may be
forms. So the problem of UNIVERSAL DISCRETE INTERACTION
can be formulated.
1.5. In simplest of real vacuum systems, which are considered
as practically stable, the external particle really goes on spiral
trajectory, which on parameters is close to circular trajectory.
The analysis of spiral trajectories of an external particle at the
decision of the task, which similar to Kepler’s task, leads to the
following relationship for parameters of external particle

m^ 2u ^2 – r ^2/с^ 2 = z0^2 (3)

Here m – inertial mass of external particle, с and z0 – constants,

r – distance between particles, u = [(dr/dt) ^2 + u0^2)]^1/2, where
u0 – speed of rotary movement of an external particle, its value as
the kinetic parameter for intervals of the Practical Time should
be reckon as constant, dr/dt – speed of cosmological expansions
of system.
1.6. So, it is necessary to consider expansion of systems as stochastic

process in which for the certain time scales there are of phenomenon
of drift or diffusions. From (3) for non-stationary case follows:

t = T1 ln[(r + m*u*c)/R0]

Here T1 and R0 – a constants. Clearly, that RATE of time in
considered
system will changed under the logarithmic law, R is an exponential
function of time. It is probability that in Beginning of Times (see
1.9)
lnR/R11 = 1. We must use constant T1 as universal standard of time for
calculating of parameters of Univers.
1.7. Process of chaotic change of a trajectory of an external particle
of vacuum system can be considered as the big series one-dimensional
movement’s Brownian particle (BP). This process is a discrete
stochastic
process of the big series of a moving. For the diffusive process here
basis is movement of BP that attainment of absolute maximum regular.
In [1] following formula of density of probability described:

p(b,t) = {(b/t )[π (t (t – T))^1/2]} expD, 0 > t >T

Here D = [– r ^2/(2t*S ^2)], T – a time of analyzed movement
Brownian
particle, t – a time of achievement of BP of one of absolute maxima
at
continuous its movement in one side, r – a value of spatial
displacement
of BP as value of an absolute maximum in one cycle of motion this
particle on not decreasing trajectory, S – a standard deviation,
p(r,t) – density of joint distribution of probabilities of value r
and t for BP.
The fundamental constant that has dimension of time, can maps a value
of unit step of such wandering (quantum of time) here. Value of the
natural standard of time T0 in systems DS1 may be pretended for a role
of such constant for a microcosm

T0 = (me*h/2π)^1/3 = 4.57988976 (71)*10 ^– 22 second

Here me – inertial mass of electron, h – Planck's constant.
1.8. Interest is a diffusion of system in a critical regime where
Brownian
particle, simulating behavior of system, were positioned at one - step
to
maximum: T – t = t0, where t0 – unit step of wandering onan axis
of time.
Here, at small time lag, it is possible to consider, that p(r, t) = p0
= const,
r/t = c. Under such conditions when T/t0 = n >>1, it is possible to
write
down, considering, that t0 = T0:

p0*S^2[π(t*T0)^1/2] = с* exp[ – r*c/(2S^2)] = с *exp[t*c^2/(2S^
2)] (4)

Parameter p0*S^2[π(t*T0)^1/2]/t = Сj at t = t11 = 1s we shall
denominate
Intensity of Diffusion (a parameters p0 and S^ 2 the intensity of a
processes are characterized).
This parameter has dimension of acceleration. It is practically
coincided
to Intensity of gravitational interaction (see (2)). At the
assumptions,
that for this system in a critical regime S ^2 = S11^2, |p0|= 1,
from (4) follows

|Gj| = 6.72322096(65) * 10 ^– 11|S11^2| = 1.0075879 |G|

It means that diffusion of the elementary vacuum system in a critical
regime is equivalent to action on system of force of gravitation.
Thus, we have an interpretation of value of gravitational constant.
1.9. There are bases to assume, that in a point where t = 0, the
density
of substance in the Universe was greatest possible and stationary
maximal displacement BP made one step. Here, most likely, there
was a point of the Big Bang.
Through certain time, as a result of expansion of the Universe
conditions for creation of the first atoms. Here there was a point
Started Times (Beginning of Times). A time interval between the
Big Bang and the Beginning of Times we shall name «Empty Time».
There are bases to assert, that irreversible processes in our universe,

such as disintegration of nuclear systems, for example, occur due to
moving an external particle when parameters of such moving have
extreme character. For extreme (not decreasing) movement of a
particle when it makes n steps and comes back to the beginning
of coordinates, there is a formula

f ≈ 1/(2*pi^1/2n^3/2)

Here f – probability of the fastest returning in zero BP after 2n
steps
of not decreasing movement.
The average time of returning BP for the fixed number of steps 2n
according to the theory of probability, makes (N/pi)^1/2. This formula
allows to calculate duration of Empty Time, considering, that number
of extreme fluctuations of a standard micro system from the Beginning
of Times equally N ≈ f ^– 1, and that after each cycle the system
extends on one step, and the Universe becomes more oldest on 1s.
(In a non stationary processes the standard of time as universal
constant appears).
We find duration of Empty Time TU, believing, that n = t11/T0:

TU = 2^1/2*pi ^1/2*n^3/4 = 2.5319118(39) * 10^16s = 802 million years.

This value is less in T1/t11 = lnR/R11 = 15.667 time than lifetime of
our Universe.

[1]. J. A. Rozanov, Casual processes, Moscow, 1971г.

Vjacheslav Ovseichik [Only registered users see links. ]
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