Mathematical model of the Space
2.11. Management of gravitation
The person observes display of gravitational fields of rotating bodies
very much frequently. Each time, stirring tea leaves of tea in a glass of boiled
water, we observably formed the crater and habitually we categorize it on
display of forces of inertia. Each time we observably, that foam and floating
particles of tea gather in the centre of the crater. We speak: - Is because,
they more easy, than water, and is less than force of
inertia of them, therefore they may not rise on an inclined surface of the
crater. But a gradient of force of inertia
f c = a c = w2r
( 284)
Where f
c
- a gradient of centrifugal force,
ac
- centrifugal acceleration,
w - angular speed of
rotation,
r - radius
of rotation.
It is
obvious, that densities here at anything. At the same time, a gradient of a
deviation of a zero level of density of a phase of Vacuum on radius of rotation
DP0 = f c = w2r
(285)
In a
point rn, laying on radius r, a deviation
of a zero level of density
DP0 r = r n ∫r w2rdr = 1/2·w2(r2-rn2)
(286)
If this proof is no
convincing, look at a bottom of a glass, and through rotating crater you will
see, that at the bottom of a glass the omitted particles of tea too have
gathered in the centre. But you see their densities, is higher than densities of
water. Can be, because near a bottom speed of rotation is lower? Yes, it so, but
conditions equal both for water and for tea. Disperse particles of tea in all
bottom and they too will nestle on walls of a glass. But in process of decrease
of speed of rotation near a bottom, particles of tea again will spread to the
centre.
It is possible to carry
out and other experiments to make exact tool measurements. But all this concerns
to the category of demonstration models which practical use is limited to speed
of rotation owing to insufficient durability of constructional materials.
Let's consider
interaction of moving and motionless structures of substance. On fig. 43
diagrams of gravitational fields of elementary particles of substance of
material bodies via which interaction is carried out are shown.
Fig.43
Motionless constructional elements of the device are designated m1
- substance of high density, m2 - substance of low density and m3
- the constructional element of high durability connecting m1 and m2
and giving rigidity of this design. The mobile constructional element is
designated mv. Its physical properties
depend on a way of creation and regulation of speed of movement. Each of weights
of substance influences the next weight by means of gravitational fields of
elementary particles.
The top diagram
corresponds to zero speed of movement mv.
The density of Vacuum (a phase of Vacuum, intensity of an electric field) on
border of the unit of fields is equal to a zero level of field P0.
The gradient of force, from which each weight operates on adjacent weight, is
equal f0. The density of Vacuum of fields of elementary particles
which basis are electrons, is inversely proportional to a square of distance
from a point which are taking place on distance, equal to a unit of measurements
of length where density has the maximal value.
The
bottom diagram corresponds to speed v movements of weight mv.
At speed v the relativistic increase of weight takes place
Mv = M0 · 1/(1-v2/C2)0,5
= 4/CT0· 1/(1-v2/C2)0,5 (287)
Here T0
- the period of a wave of substance mv.
Thus, the density of
Vacuum on former border of the unit of fields will increase up to Pv.
Pv = P0 · 1/(1-v2/C2)0,5
(288)
But new
field Pv
is a field of reaction to influence of a phase of Vacuum of the Space, arisen at
movement with speed v. The density of Vacuum of this field is reduced already
proportionally to distance from a point of former border undressed fields. The
new border undressed fields owing to occurrence of field Pv is displaced aside motionless weights.
The density of Vacuum on border of the unit of fields with weight m1 is equal P1,
and on border with m2 - is equal P2. The forces of the
interaction, which has arisen on border of the unit of fields, are equal
accordingly f1 and f2. These forces are not equal, because
weights m1 and m2 have a different steepness of fields
owing to distinction in density of substance. Thus there is a gradient unbalance
the forces, working in a direction of more dense weight.
Δf = f1 – f2
(289)
Under influence of it unbalance the
device goes in a direction of action of force f1 with acceleration
a = Δf / m
(290)
Where m – is a
gradient of weight of the device.
The example of execution of the gravitational
device with the rotating power block is given on fig. 44
Fig. 44
The device consists of the cylindrical case 1 which has tight carving,
with extreme small step, connection with a cover 2. On a cover the
high-frequency electric motor 3 gyroscopes is fixed. On a shaft 4 the disks 5
made of a high-strength material on break are fixed. Thickness of disks is
defined by technological opportunities of manufacturing of extreme thin and flat
disks with the supreme cleanliness of a surface. Connection of disks with shaft
provides their rotation without sliding. Remote rings 6 are executed from
deformable, but a rigid material. Motionless disks 7 are placed between disks 5.
Thickness of these disks also is defined by technological opportunities of
manufacturing of extreme thin and flat disks with the supreme cleanliness of a
surface. These disks in work test axial loadings and thus should not be
deformed. On the bottom surface of disks 7 the layer of gilding is put, and on the top surface the layer of
aluminium
covering is put. Coverings polished up, with the purpose to provide the supreme
degree of cleanliness at the supreme degree of preservation of a plane of a
surface. Between motionless disks the remote rings 8 executed from are
established is elastic a deformable material. The bottom end of a shaft is
equipped with the bearing 9, which is placed in the case of the device. The
shaft has an opportunity of axial moving in the bearing. A rotor collect on a
shaft of a gyroscope, get in the case of the device and draw in a cover, turning
it on carving connection with the case. Final processing of
surfaces of disks and assembly, need to be carried out in vacuum.
Then start up the electric motor and again draw in a cover before contact of
mobile and motionless disks. Thus there is a frictional grinding in of surfaces
at which it is provided dense, without a backlash, but connection of surfaces of
disks not having molecular connections. This operation, repeat repeatedly, with
the purpose of formation of working surfaces. After grinding in the gyroscope
should develop settlement speed of rotation, and disks should not have electric
contact, measured with a view of the control at possible lower voltage.
If it will be
technologically possible, the aluminium covering can
be not rendered, but thus the additional backlash between disks not less
thickness of a covering should be provided. Characteristics of the gravitational
device depend on technological opportunities and should be determined
experimentally. The best results may be achieved at use nanotechnology for
manufacturing disks, remote rings and a rotor of the electric motor. Limiting
intensity of a gravitational field is limited to breaking strength of a material
of mobile disks at which district speed of rotation hardly may exceed 600m/c.
Characteristics
of the gravitational device can be increased, if in the case 1 to place the coil
of the closed optical path with laser filling, the ring resonator. The optical
path should have a surface of extreme high cleanliness of processing. On the top
surface, of an optical path, put a gold covering, and
on bottom - an aluminium covering. The coil, press on
in the case a cover
The described designs
may be applied as technological and vehicles, but they are not suitable for
research of distant space. Power characteristics of the gravitational device can
be increased on 5-6 orders if to use for compression a ring optical path a stream of initial photons - fast neutrino. Thus
power characteristics of interaction of a moving and motionless matter will
increase up to a level nuclear energy. Use neutrino is more preferable than the
lowest measurements, but for this purpose it is necessary to seize technology of
work with substance of the lowest measurements. Now is real to carry out pumping an optical path a stream neutrino the
same measurement, as substance of an optical path.
Earlier it was already
told that during growth of density of a positive phase of Vacuum in a
gravitational field of the Earth there are streams fast neutrino and
antineutrino a counter direction. Streams neutrino, are directed to the centre
of weights, and streams antineutrino move in the opposite direction. The density
of a stream neutrino grows in process of approach of a peak surface of a
gravitational wave of a positive phase. The problem is to direct this stream to
the resonator of the gravitational device and to operate its intensity. In
essence, thus huge energy of a gravitational wave of the universe for formation
of power of local area of Space will be used. Movement is carried out with
superlight
speeds.
The maximal power
characteristics it is possible to reach under condition of formation of all
constructive elements by means of nanotechnology. The stream of initial photons
cooperates with substance of an optical path. Therefore the structure of
substance of an optical path should be generated with formation of longitudinal
channels, and walls of an optical path should provide full internal reflection
of initial photons. The best results may be received, if the optical path will
be generated from substance of lower measurement, than measurement initial
neutrino a stream. The stream initial neutrino contains neutrino sets of measurements. But to keep in an optical path the substance of an
optical path is possible neutrino only equal or higher measurements, than. Formation of
structure of the substance forming walls of an optical path preferably of a
message on the basis of nuclear connections, giving higher density of structure.
Thus it is possible to achieve the least dispersion of a stream. From told it is
possible to draw a conclusion, that efforts of designers should be directed on
mastering by ways of generation of substance of measurement L10 and
development complex of nanotechnology, providing work simultaneously with two
measurements L00 and L10. In more remote prospect of
effort it is necessary to direct on researches of measurement L20
which use will allow essentially to improve
characteristics of a gravitational device.
The task in view at
first sight may seem unsoluble. The mankind has no a sufficient operational
experience with the lowest measurements. The modern science does not recognize
scientific research in the field of properties of a thin matter. Nevertheless, the Reason of the person, which
created this science, is the powerful generator of substance of the lowest
measurements. An idea it is possible to build various objects of substance of
the lowest measurements. The idea can be operated power of Space. It is
necessary only to learn to operate an idea.
On fig. 45 the circuit of a gravitational vehicle (graviplane),
which may move within several minutes in any point of the
universe
is shown.
Рис. 45
The case 1 of
graviplane (in figure it is shown in part) is
executed from the integral metal having maximum achievable breaking strength and
on compression.
In a body of the case
are generated top 2 and the bottom 3 coils of an optical path (mid-flight
resonators), intended for a stream of initial photons (fast neutrino)
measurements L00. Formation conducts simultaneously
with formation of the case. Thus coils of an optical path form as the
multilayered coil and separate from each other the metal of the case providing
necessary durability of a design. With the purpose of increase of gravitational
force of the mid-flight engine and, accordingly, acceleration in an operating conditions, the top surface of an optical
path of the bottom resonator and the bottom surface of an optical path of the
top resonator are covered with metal of high density, for example, gold. And the
bottom surface of an optical path of the bottom resonator and the top surface of
an optical path of the top resonator are covered with metal of low density, for
example, aluminium. The optical path is executed from
a material of high durability on compression, for example, from quartz.
In lateral ring volume
of a body of the case eight or more coils of an optical path, the resonators
intended for movement in a horizontal direction and maneuvering with rather
small speeds are generated. On fig. 45 are shown right top 4, right bottom 5,
left top 6 and the left bottom 7 resonators. Forward and back resonators are not
shown. Maneuvering is reached due to change of sizes of streams of initial
photons in these resonators in various combinations.
In the centre of the case the transport compartment
Above the mid-flight engine the resonator 10 intended for a stream of antiphotons (fast antineutrino) is located. This resonator
creates a field of antigravitation, which, similarly
to a lens, focuses a stream of photons 11 gravitational fields of a planet and
directs it to the reception linear resonator of initial photons 12. Through the
reception resonator of photons it is carried out pumping ring resonators. Means
of automatic and manual management are located by streams of initial photons in
a collector of optical paths 13. The reception resonator 14 directs focused by a
gravitational field of the resonator of the mid-flight engine a stream of antiphotons 15 gravitational fields of a planet to the ring
resonator 10.
In an average part of the case the coil of an optical path of the
heat-sink resonator 16 is located. The optical path of this resonator has the
increased section at rather smaller area of a surface. It is necessary to lower
intensity of a gravitational field created by it. The surface of an optical path
has continuous aluminium covering with the purpose to
lower forces of gravitational influence on the case. Streams of initial photons
direct to this resonator if necessary to deactivate other resonators, for
example, in a passive mode if necessary an output of crew on a surface of a
planet.
Arrows show vectors
intensity the gravitational fields created by ring resonators, in an active
mode. In a mid-flight mode control facilities deactivate the top or bottom
resonators of the mid-flight engine. A stream of photons thus, from deactivated
the resonator direct to the active mid-flight resonator. The density of a stream
of radiation in the active resonator accordingly grows, and its gravitational
field disperses graviplane with constant acceleration
till speed, which depends on duration of a gravitational pulse. Together with it
the phase of Vacuum goes also. Therefore inertial overloads may not arise. At
activation before the deactivated mid-flight resonator movement of a phase of
Vacuum disappears during activation, practically instantly. The phase of Vacuum
has no inertial properties. Together with it graviplane
instantly stops. And in this mode inertial overloads may not arise. The power of
Space остаётся
balanced each moment of time during moving of graviplane,
therefore graviplane, does not spend energy. Losses of
energy owing to dispersion compensate pumping of resonators in gravitational
fields of planets.
The crew of
graviplane
is in the transport compartment, which is taking place in the centre of graviplane. The gravitational field of a transport
compartment in passive and in active modes has low intensity, which is the sum
intensity, created by all resonators. In a mid-flight mode intensity of a field
of one of mid-flight resonators disappears, and another is increased twice owing
to reduction twice of active volume of an optical path. But in this field there
is all transport compartment, therefore all its
elements move with identical acceleration. Thus the crew does not test inertial
overloads.
In active and in
mid-flight modes graviplane may move not only in a space, but also in the
dense environment, for example, in bowels of an earth's crust, depths of ocean.
It is possible provided that intensity of its external gravitational field
exceeds intensity of a field of a barrier of the electronic jackets
participating in molecular connections of substance of environment. Then the
substance of environment will part before graviplane
and to be closed behind it. Graviplane keeps
protection against external influence by means of a gravitational field until
intensity of a field exceeds intensity of a gravitational field of means of
influence in view of dynamics. The weak place of a graviplane
is on an axis where the reception resonator pumping photons is located.
Therefore at movement the resonator of pumping of photons in all modes of moving
should be deactivated from a stream of antiphotons,
for example, by radiation in Space and to carry out pumping in it of a stream of
photons from the heat-sink resonator with the purpose of creation of a
protective gravitational field.
In an active mode
gravitational fields protect graviplane also from
influence of radiations. So, streams of light, radiated
an external source, in its gravitational field deviate the case. In these
conditions graviplane it is invisible, it does not radiate reflected
light, but its gravitational field, rejecting light beams, which go from other
objects, creates Mirages.
At a high level of
activization
of mid-flight resonators the gravitational field of a high
tension changes characteristics of Space and may result in infringements
of a course of Time. Thus there may be carries of objects to the past and the
future, and also occurrence of objects from other time periods. Something
similar has taken place at
It is artificial the
created gravitational fields, streams of initial photons and
antiphotons
can be used also in various technologies, including for reception of energy from
Space. The energy source is inexhaustible moreover,
energy of a gravitational wave of the universe accrues therefore, Terrestrial
civilization, for all stayed period down to gravitational impact will be
completely provided with a non-polluting energy source.
The universe
stores much and other secrets they will be open to people in process of
formation of a macroprogram of the person having qualities, necessary for
integration in Intellectual sphere of the universe. Therefore a priority
problem is not development of the theory and perfection of technologies, but the
statement of principles of healthy morals.
October
04, 2002
Boris
Lemyakin.
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