The diagram under brought again is the
first part widend of the first.
The diagram under brought again is the first part widend of
the first. Before examining the according to diagram, that other it is
not, that the first part widened of the first diagram, I fix the made that
the changes that are seen, other I am not that changes of the constant
dielectric of the space ether. These changes they then are translated in
changes of the electric charge of the electron, which when he strikes the
fluorescent screen he produces a change of brightness, that depends beyond
that by her charge of the electron, also by the change of the voltage of
acceleration of the beam of electrons, that to his tied time to her charge
of the electron. Because if he to example decreases her charge of the electron,
he also decreases the electric voltage of acceleration, also if the instruments
connected measurers are on the current anodic, that on the voltage of acceleration,
they don't mark any change. For clarify a little the things I do a practical
example, that commonly use when I calibrate the sensor. We suppose that
to the term of a day of 24 hours the instrument indicator placed to the
center of the two branches of the bridge I mark a value of voltage of-
300 millivolt. A negative value to the heads of the bridge, you indicate
a diminution of her charge of the electrons and of consequence an increase
of the density of the space ether. Now for know than he has decreased her
charge of the electron he needs that i do a correction on the current anodic
for bring again to zero the instrument. Then increase the current anodic
until to obtain the resetting, then i measure the difference that has happened
and i do the square root. I do that because i could not increase the voltage
of acceleration, and for obtain the resetting i must increase the quadrate
the current. Thing i do you indicate the square root of the increase of
current? You indicate exactly me the value of the diminution of the velocity
of the light and the inverse of this diminution, i give me the increase
of the constant dielectric. Additionally elevating the cube thisi obtain
the value of the increase of the density of the space. After these occurrences,
i conclude that the space ether one you behave, to first see, any more
any less that an any dielettric of front to an electric field, with him
added of as many other phenomenons that i for the moment discontinue, but
that we will see in succession. You take however good attention; he is
not the electric field to alter the characteristics of the space, but is
the density of him space that alters the characteristic of the electric
field. Until from you now are begun to see like (space ether and of consequence,
gravity) they are strictly tied to the electric field. I do a small example:
in a site place on the surface of a celestial body, the velocity of the
light is less of an other site place to the of outside of the body in question,
also if a observer, when you move from the surface of the body, to the
space external, you find that the velocity of the light always remains
invariable. We analyze now to great lines the inferior diagram.
Figure 2. On this diagram could be seen to medium resolution
the waves gravitational you arrive to the sensor, from the 04-26-94 at
12-31-94. We examine now the points 1-2-3 and 4 marked with a red circle.
You to first see spring immediately to the eye a kind of wave to form
of fork with the main more peak low of the secondary, why? Like I have
formerly said, when we are in presence of a positive wave, we locate of
front to a collapse gravitational and that when a body celestial super
massive, to example of the kind quasar and similar, he has reached a critical
mass, not being good at more to tolerate the contraction gravitational
contrasting to this a high temperature, you initiate a rapid collapsed
on if same, with local accelerations of any lux to the second, and you
store a such quantity of energy to arrive at to perforate the space and
to go out. To this point coming to be missing the due matter to this exit,
the space is closed again, and in the period of some minutes the residue
bounces beginning to form the second peak of the fork. Then we attend to
a primary very spiky peak, while that secondary it is rather rounded, because
in the secondary peak is not we more sufficient matter to perforate the
space, it could not occur a peak like that of the first peak. Now we see
in detail thing he happens. If you observe well the state of the you curve
4, he could be seen like the surface interested to the event you don't
exceed the six days light, this is as he is seen in the diagram, then the
amplitude of the interested surface is to the maximum of this value. When
the phenomenon is loaded, not only the matter collapses, but with this
also the space that the matter holds back around, which has a mass considerably
superior to that of the same matter. He is like if to the place of a solar
mass to collapse thousand of them. He is this big amount of space that
causes the bounce, that is the double peak. The inferior portion of the
diagram show a reverse situation, see through the red circles 1A, 2A. We
in this part of the diagram see the primary peak, deeper than the secondary
peak. Like I have told in precedence, when a wave goes toward negative
values, we are in presence of an outburst or expansion of matter. But he
in this circumstance is not possible an outburst, we maybe are of front
to an expansion, but like does he become to expand an anything that before
there was not? Then we locate of front to an an entry of matter in our
universe. We will see in a next more detailed diagram that as I have just
asserted. We pass now to examine the third diagram.
figure 1.available by file from test01
figure 2.available by file from test02
figure 3.available by file from test03
figure 4.available by file from test04
figure 5.available by file from test05
figure 6.available by file from test06
figure 7.available by file from test07
figure 8.available by file from test08
figure 9.available by file from test09
figure 10.available by file from test10
figure 11.available by file from test11
figure 12.available by file from test12
figure 13.available by file from test13
figure 14.available by file from test14
figure 15.available by file from test15
figure 16.available by file from test16
figure 17.available by file from test17
figure 18.available by file from test18
figure 18b. Discussion file from test18b
figure 19.available by file from test19
figure 0.available by file from Homepage