Analysis of the diagram that goes from the month of September 96 to the
month of March 97.
The last analysis of the diagram of the waves gravitational
arrive to the sensor it had stayed to the month of August 96, since in
the successive months remarkable phenomenons had not been verified. But
I with the month of December am initiate again big oscillations in the
arrival of the waves that I of succession show. In the month of December
an abrupt drop of the wave has happened that he is to indicate the gone
out probable from the tangle of the waves that they have characterized
the appea rance of the diagram of the preceding months to this. Now he
is initiate a phase in which the waves are seen more distinctly, in that
they are in phase of rarefaction. In fact toward the end of December, he
is attended to a rapid gone up, that it terminates with a likewise rapid
gone down, symptom of a collapse of matter from happened a little time.
The diagram of these last seven months I have built it very detailed since
I have used 15570 read record directly from the computer. The diagram that
you see a re exactly who that the instrument has registered in succession
way for seven months. Now I could see to segments of 20 minutes the complete
arc of seven months. These data are very interesting and allow me of examine
in the details also small phenomenons that then could be set to comparison
with the recorded data by the GRO satellites, BEPPO SAX... to see if any
relation exists with the gamma ray burst from these last canned. There
is however a big problem, and that is like in past I have explained, of
th ese small explosive phenomenons, I record some quite a lot in the arc
of amonth, and I am not able of put them in relation with the optical observations,
because I am not able of decide with as advance the wave gravitational
arrives to my instrument respect to the electromagnetic wave. The wave
gravitational meets few obstacles in his propagation. But with a few of
patience and in occasion of a pair of gamma ray burst, distanced at the
right moment and to originate from the same point of the universe, they
could be correlates to the waves gravitational arrive, and then can establish
a scale of the distances of start of the impulses. I currently, for these
small waves, I could measure only the energy arrived to the instrument;
but not the precise amount, because I don't know the distance of start.
I can for the moment assert a sure occurrence, and that is that when we
locate in the final phase of a collapse, almost a trouble to the peak of
the wave in arrival always happens, this trouble comes me recorded al so
by the magnetic sensor, and he has the same duration of the electric trouble.
We will see zooming to the maximum the peaks of January and February 97.
The peak of December to example, he show only a small trouble. I in these
last seven months have too built optic sensors, but with insufficient results.
These last they record well so that very fast, smaller also to the millisecond,
but I still am not reliable, I don't understand for which reason. There
is also an occurrence; and that is the amount of dat a that they leave
these new sensors, I am really so much (3.8 giga byte to the day.) I one
and no that I arrive at some to examine a mega byte to the day, the remainder
doesn't take in consideration it. But we go forward, and we analyze the
last conclusions to which I have arrived in the analysis of these peculiar
quasar to multiple nucleus. You look as if the components or nuclei of
the quasar amount around 20 unity, plus or minus five. When I am in phase
of collapse, they employ approximately 3 days to l ead term the phase with
escaped of the matter by the universe. They have the appearance of a globular
cluster, and all the cluster should not exceed the six month light of dimension.
These data extract them by the graphics after have removed the redshifts
that these has. I for the total mass of the quasar use the approximate
relation that: admitting a total mass of the visible universe of 10E+23
solar masses, and a radius of 20 billion of years light, doing the ratio
between total volume and increment of t he yearly volume, I find an equal
value to 3 / R. That is (4piR^2) / (4/3PIR^3) = 3 / R. if I now multiply
10^23 * 3 / R, I find the mass that goes out or go in, inside our universe
each year: M = 3 * 10^23 / R = 1.5 * 10^13 solar masses. Conceded that
this kind of phenomenon, he presents itself on the average every 2 years,
and conceded that the components of the quasar are 20, we could derive
the mass average unitary of every nucleus. This results be 2 * 1.5 * 10^13
/ 20 = 1500 billion of solar masses th at to collapse for one nucleus.
Then each nucleus on the average has this mass. You hold well present,
which more than this method of final collapse, forthe moment I have not
recorded some other. If then the total mass of the universe and the radius
diverge from as above said, the problem in last analysis doesn't change
then much. I in precedence have written that the mass that to collapse
was inclusive between 300 and 1000 billion of solar masses, now instead
that I begin to have some statistic data, es: frequency of the phenomenon
and number of the nuclei that they participate to the collapse, I begin
to always have more data valid. As I have said in past, on the dark matter
that accompanies the big mass of luminous matter, the dark matter other
is not that space thickened around the luminous matter. Of this mass, I
will speak in succession any, because I currently don't have reliable information
on the mass and on the redshift of clusters of quasar. He will be a future
problem. But he is certainly an occ urrence that a supermassive quasar,
he could attract around to one a mass of space, more than a million of
times his material mass, as since deflect the light rays also to hundreds
of thousands of years light since the nucleus of the same quasar. These
objects are of the powerful attractors, view he heightened total mass by
them possessed: matter luminous more dark matter (thickened space.) We
go by now to examine the diagram of the last seven months up to all the
month of March 1997. I in part have alread y told that which he there appears,
the axle of the Y has an equal zoom to five, in way for see clearer the
signal. the circles 1-2-3-4-5 I will do them see to the greatest resolution
of succession. The zoom for these last he will be of 250, equal to 4 millivolt
for division against the 200 millivolt for division of the diagram of the
figure 10. figure 10..11..12.
Figure10.In this diagram, we see a series of points that they
begin in the month of December 96, and they go on in the following months.
I for the moment stay to the month of March 97, because I don't know thing
he will happen in succession. I can only to realize that they are been
about to exhaust the nuclei that to collapse. But given he big distance
of this phenomenon, he is difficulty do previsions. The zoom used in this
diagram is equal to 5, you mean that the distance among two red lines is
equal to 200 millivolt. The more important part to examine of these peaks,
he is the front of drop of the wave, like you could see, the go down is
more steeps than the go up, this is to indicate that the peaks that we
see, they are secondary peaks, because in a wave to fork, the external
portions of the fork are more steeps, this phenomenon has seen very well
it inside the collapse of the 1994. Then we in this moment are situated
in front to secondary peaks; the primary peaks are not seen because they
a re lower than the secondary and they then are covert. But if there are
secondary peaks, there have also been primary peaks, that is collapses
with escaped of matter. When I say that in that point of the collapse the
matter perforates the space and go out from the universe, I in reality
say: the matter that to collapse, he achieves a velocity of fallen very
near to the velocity of the light, and he locally produce an enormous amount
of energy, that is sufficient of curve the wholly space, and then go out
fr om our universe. The hypersphere like produced for us has disappeared,
he doesn't do more produce his gravitational effects; also if his distance
from the point of gone out it is not then as much. Once exit, the matter
results isolated, he doesn't can more disperse the own energy, he then
could recharge of energy and of space, to expands again and enter again
in future in that point of the space. Why do I say this? Because having
observed that the velocity of the light is variable, he results variable
also the energy. There is then an other occurrence, and that is, when a
body spins, you produce space, this space, beyond that allow the expansion
of the universe, he also regenerates the bublles of matter goes out to
the outside. Here so that in the precedents paragraphs have spoken about
recycled matter. Occurs then an another problem: like does he get itself
to see him space that is generated when does a body spins? Maybe I will
explain it. figure 11.12.
Figure11.12.In these two graphics I do see the pointed extremity
of the different peaks, numbered from 1 to 5. Like you could see on two
he of these could be seen well the noise that he appears over the point.
At the same time the sensor magnetic place on the balance measured a variation
of weight of 125 milligrams. This variation is then disappeared at the
end of the noise. The energy by me calculated, for this noise, he is inclusive
among 10^6 and 10^8 solar masses changed in energy.
Figure11.The diagram 11 he has constituted by three figures:
the circle 1 show a small noise, the circle 2 show a strong noise, while
in the circle 5 he is seen a rapid gone up, immediately followed by a rapid
go down. I am not in I estabilish of settle this I have been a peak primary.
Removing to this figure his redshift, the real time employed for reverse
the sense of the wave, it results of approximately 7 minutes.
FIGURE 12
Figure 12.The diagram 12 show: in the circle 3 a strong noise,
in the circle 4 a weak noise. For the moment this is all.
figure 10.available by file from test10
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 20.available by file from test20
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